#1
char Aclass(3,24)
Adymosim
1.4
Modelica experiment file


#    Experiment parameters
double experiment(7,1)
       0                   # StartTime    Time at which integration starts
                           #              (and linearization and trimming time)
    3000                   # StopTime     Time at which integration stops
       0                   # Increment    Communication step size, if > 0
     500                   # nInterval    Number of communication intervals, if > 0
  1.000000000000000E-004   # Tolerance    Relative precision of signals for
                           #              simulation, linearization and trimming
       0                   # MaxFixedStep Maximum step size of fixed step size
                           #              integrators, if > 0.0
       8                   # Algorithm    Integration algorithm as integer (1...28)
                           #
                           #             | model|       |        | dense | state |
                           # Algorithm   | typ  | stiff | order  | output| event |
                           # ------------+------+-------+--------+-------+-------+
                           #  1 | deabm  |  ode |   no  |  1-12  |  yes  |   no  |
                           #  2 | lsode1 |  ode |   no  |  1-12  |  yes  |   no  |
                           #  3 | lsode2 |  ode |  yes  |  1-5   |  yes  |   no  |
                           #  4 | lsodar |  ode |  both |1-12,1-5|  yes  |  yes  |
                           #  5 | dopri5 |  ode |   no  |   5    |   no  |   no  |
                           #  6 | dopri8 |  ode |   no  |   8    |   no  |   no  |
                           #  7 | grk4t  |  ode |  yes  |   4    |   no  |   no  |
                           #  8 | dassl  |  dae |  yes  |  1-5   |  yes  |  yes  |
                           #  9 | odassl | hdae |  yes  |  1-5   |  yes  |  yes  |
                           # 10 | mexx   | hdae |   no  |  2-24  |   no  |   no  |
                           # 11 | euler  |  ode |   no  |   1    |   no  |  yes  |
                           # 12 | rkfix2 |  ode |   no  |   2    |   no  |  yes  |
                           # 13 | rkfix3 |  ode |   no  |   3    |   no  |  yes  |
                           # 14 | rkfix4 |  ode |   no  |   4    |   no  |  yes  |
                           #>=14| others |  ode |yes/no |  2-5   |   yes |  yes  |
                           # ---+--------+------+-------+--------+-------+-------+
                           # euler and rkfix have fixed stepsize.


#    Method tuning parameters
double method(27,1)
       1                   # grid     type of communication time grid, defined by
                           #          = 1: equidistant points ("Increment/nInterval")
                           #          = 2: vector of grid points ("tgrid")
                           #          = 3: variable step integrator (automatically)
                           #          = 4: model (call of "increment" in Dymola, e.g.
                           #                      incr=Time > 2 then 0 else 0.1
                           #                      dummy=increment(incr))
                           #          grid = 1,3 is stopped by "StopTime"
                           #          grid = 2   is stopped by "tgrid(last)"
                           #          grid = 4   runs forever (stopped by model)
       1                   # nt       Use every NT time instant, if grid = 3
       3                   # dense    1/2/3 restart/step/interpolate GRID points
       1                   # evgrid   0/1 do not/save event points in comm. time grid
       1                   # evu      0/1 U-discontinuity does not/trigger events
       0                   # evuord       U-discontinuity order to consider (0,1,...)
       0                   # error    0/1/2 One message/warning/error messages
       0                   # jac      0/1 Compute jacobian numerically/by BLOCKJ
       0                   # xd0c     0/1 Compute/set XD0
       0                   # f3       0/1 Ignore/use F3 of HDAE (= index 1)
       0                   # f4       0/1 Ignore/use F4 of HDAE (= index 2)
       0                   # f5       0/1 Ignore/use F5 of HDAE (= invar.)
       0                   # debug    flags for debug information (1<<0 uses pdebug) 
     100                   # pdebug       priority of debug information (1...100)
       0                   # fmax     Maximum number of evaluations of BLOCKF, if > 0
       0                   # ordmax   Maximum allowed integration order, if > 0
       0                   # hmax     Maximum absolute stepsize, if > 0
       0                   # hmin     Minimum absolute stepsize, if > 0 (use with care!)
       0                   # h0       Stepsize to be attempted on first step, if > 0
  2.000000000000000E-014   # teps     Bound to check, if 2 equal time instants
  1.000000000000000E-010   # eveps    Hysteresis epsilon at event points
      20                   # eviter   Maximum number of event iterations
  1.000000000000000E-006   # delaym   Minimum time increment in delay buffers
       1                   # fexcep   0/1 floating exception crashes/stops dymosim
       1                   # tscale   clock-time = tscale*simulation-time, if grid = 5
                           #          > 1: simulation too slow
                           #          = 1: simulation-time = real-time
                           #          < 1: simulation too fast
       1                   # shared   (not used)
    2473                   # memkey   (not used)


#    Output parameters
int settings(13,1)
 0                         # lprec    0/1 do not/store result data in double
 1                         # lx       0/1 do not/store x  (state variables)
 1                         # lxd      0/1 do not/store xd (derivative of states)
 1                         # lu       0/1 do not/store u  (input     signals)
 1                         # ly       0/1 do not/store y  (output    signals)
 0                         # lz       0/1 do not/store z  (indicator signals)
 1                         # lw       0/1 do not/store w  (auxiliary signals)
 1                         # la       0/1 do not/store a  (alias     signals)
 0                         # lperf    0/1 do not/store performance indicators
 0                         # levent   0/1 do not/store event point
 1                         # lres     0/1 do not/store results on result file
 0                         # lshare   0/1 do not/store info data for shared memory on dsshare.txt
 1                         # lform    0/1 ASCII/Matlab-binary storage format of results
                           #              (for simulation/linearization; not for trimming)


#    Names of initial variables
char initialName(5458,94)
EVA1.numberOfTubeLayers
EVA1.numberOfCellsPerLayer
EVA1.numberOfWallLayers
EVA1.hydraulicResistanceGasFLow
EVA1.geoFGZ.pt
EVA1.geoFGZ.pl
EVA1.geoFGZ.Lw
EVA1.geoFGZ.Ld
EVA1.geoFGZ.Lh
EVA1.geoFGZ.Nr
EVA1.geoFGZ.staggered
EVA1.geoFins.finned
EVA1.geoFins.serrated
EVA1.geoFins.h
EVA1.geoFins.s
EVA1.geoFins.b
EVA1.geoFins.w
EVA1.geoFins.n
EVA1.propertiesMetal.cp
EVA1.propertiesMetal.lambda
EVA1.propertiesMetal.rho
EVA1.geoPipe.Nt
EVA1.geoPipe.L
EVA1.geoPipe.H
EVA1.geoPipe.d_out
EVA1.geoPipe.s
EVA1.geoPipe.r
EVA1.geoPipe.zeta_add
EVA1.geoPipe.isCylindric
EVA1.geoPipe.A
EVA1.delayInnerHeatTransfer
EVA1.timeDelayOfInnerHeatTransfer
EVA1.cleanlinessFactor
EVA1.heatloss
EVA1.hasMixerVolume
EVA1.V
EVA1.hydraulicResistanceSplitterOut
EVA1.m_flowGas_start
EVA1.TGasIn_start
EVA1.TGasOut_start
EVA1.m_flow_start
EVA1.pIn_start
EVA1.pOut_start
EVA1.hIn_start
EVA1.hOut_start
EVA1.initializeInletPressure
EVA1.initializeSteadyStateEnthalpies
EVA1.initializeSteadyStateInletEnthalpy
EVA1.useHeatInput
EVA1.initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[1].pi
EVA1.flueGasZone[1].numberOfTubeNodes
EVA1.flueGasZone[1].numberOfWallLayers
EVA1.flueGasZone[1].hydraulicResistance_gas
EVA1.flueGasZone[1].delayInnerHeatTransfer
EVA1.flueGasZone[1].timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[1].m_flow_start
EVA1.flueGasZone[1].pIn_start
EVA1.flueGasZone[1].pOut_start
EVA1.flueGasZone[1].hIn_start
EVA1.flueGasZone[1].hOut_start
EVA1.flueGasZone[1].pGas_start
EVA1.flueGasZone[1].TGasIn_start
EVA1.flueGasZone[1].TGasOut_start
EVA1.flueGasZone[1].m_flowGas_start
EVA1.flueGasZone[1].initializeInletPressure
EVA1.flueGasZone[1].initializeSteadyStateEnthalpies
EVA1.flueGasZone[1].initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[1].useHeatInput
EVA1.flueGasZone[1].initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[1].TWall_start[1]
EVA1.flueGasZone[1].TWall_start[2]
EVA1.flueGasZone[1].TWall_start[3]
EVA1.flueGasZone[1].TWall_start[4]
EVA1.flueGasZone[1].TWall_start[5]
EVA1.flueGasZone[1].geoFGZ.pt
EVA1.flueGasZone[1].geoFGZ.pl
EVA1.flueGasZone[1].geoFGZ.Lw
EVA1.flueGasZone[1].geoFGZ.Ld
EVA1.flueGasZone[1].geoFGZ.Lh
EVA1.flueGasZone[1].geoFGZ.Nr
EVA1.flueGasZone[1].geoFGZ.staggered
EVA1.flueGasZone[1].geoFins.finned
EVA1.flueGasZone[1].geoFins.serrated
EVA1.flueGasZone[1].geoFins.h
EVA1.flueGasZone[1].geoFins.s
EVA1.flueGasZone[1].geoFins.b
EVA1.flueGasZone[1].geoFins.w
EVA1.flueGasZone[1].geoFins.n
EVA1.flueGasZone[1].geoPipe.Nt
EVA1.flueGasZone[1].geoPipe.L
EVA1.flueGasZone[1].geoPipe.H
EVA1.flueGasZone[1].geoPipe.d_out
EVA1.flueGasZone[1].geoPipe.s
EVA1.flueGasZone[1].geoPipe.r
EVA1.flueGasZone[1].geoPipe.zeta_add
EVA1.flueGasZone[1].geoPipe.isCylindric
EVA1.flueGasZone[1].geoPipe.A
EVA1.flueGasZone[1].metal.cp
EVA1.flueGasZone[1].metal.lambda
EVA1.flueGasZone[1].metal.rho
EVA1.flueGasZone[1].cleanliness
EVA1.flueGasZone[1].computeHeatLossInPercent
EVA1.flueGasZone[1].heatloss
EVA1.flueGasZone[1].kLossToAmbient
EVA1.flueGasZone[1].T_ambient
EVA1.flueGasZone[1].Q_flowToAmbient[1]
EVA1.flueGasZone[1].Q_flowToAmbient[2]
EVA1.flueGasZone[1].Q_flowToAmbient[3]
EVA1.flueGasZone[1].Q_flowToAmbient[4]
EVA1.flueGasZone[1].Q_flowToAmbient[5]
EVA1.flueGasZone[1].tube.hIn
EVA1.flueGasZone[1].tube.hOut
EVA1.flueGasZone[1].tube.preferredStates
EVA1.flueGasZone[1].tube.m_flow_start
EVA1.flueGasZone[1].tube.pIn_start
EVA1.flueGasZone[1].tube.pOut_start
EVA1.flueGasZone[1].tube.useTemperatureStartValue
EVA1.flueGasZone[1].tube.hIn_start
EVA1.flueGasZone[1].tube.hOut_start
EVA1.flueGasZone[1].tube.TIn_start
EVA1.flueGasZone[1].tube.TOut_start
EVA1.flueGasZone[1].tube.XIn_start[1]
EVA1.flueGasZone[1].tube.XOut_start[1]
EVA1.flueGasZone[1].tube.useSubstanceStorage
EVA1.flueGasZone[1].tube.useEnergyStorage
EVA1.flueGasZone[1].tube.dp
EVA1.flueGasZone[1].tube.state_from_a.phase
EVA1.flueGasZone[1].tube.state_from_a.h
EVA1.flueGasZone[1].tube.state_from_a.d
EVA1.flueGasZone[1].tube.state_from_a.T
EVA1.flueGasZone[1].tube.state_from_b.phase
EVA1.flueGasZone[1].tube.state_from_b.h
EVA1.flueGasZone[1].tube.state_from_b.d
EVA1.flueGasZone[1].tube.state_from_b.T
EVA1.flueGasZone[1].tube.g
EVA1.flueGasZone[1].tube.pi
EVA1.flueGasZone[1].tube.numberOfNodes
EVA1.flueGasZone[1].tube.geoPipe.Nt
EVA1.flueGasZone[1].tube.geoPipe.L
EVA1.flueGasZone[1].tube.geoPipe.H
EVA1.flueGasZone[1].tube.geoPipe.d_out
EVA1.flueGasZone[1].tube.geoPipe.s
EVA1.flueGasZone[1].tube.geoPipe.r
EVA1.flueGasZone[1].tube.geoPipe.zeta_add
EVA1.flueGasZone[1].tube.geoPipe.isCylindric
EVA1.flueGasZone[1].tube.geoPipe.A
EVA1.flueGasZone[1].tube.initializeInletPressure
EVA1.flueGasZone[1].tube.initializeSteadyStateEnthalpies
EVA1.flueGasZone[1].tube.initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[1].tube.h_start[1]
EVA1.flueGasZone[1].tube.h_start[2]
EVA1.flueGasZone[1].tube.h_start[3]
EVA1.flueGasZone[1].tube.h_start[4]
EVA1.flueGasZone[1].tube.h_start[5]
EVA1.flueGasZone[1].tube.Q_flow_start[1]
EVA1.flueGasZone[1].tube.Q_flow_start[2]
EVA1.flueGasZone[1].tube.Q_flow_start[3]
EVA1.flueGasZone[1].tube.Q_flow_start[4]
EVA1.flueGasZone[1].tube.Q_flow_start[5]
EVA1.flueGasZone[1].tube.additionalVolume
EVA1.flueGasZone[1].tube.useDynamicMassBalance
EVA1.flueGasZone[1].tube.considerDynamicMomentum
EVA1.flueGasZone[1].tube.considerDynamicPressure
EVA1.flueGasZone[1].tube.heatedArea
EVA1.flueGasZone[1].tube.diameterInner
EVA1.flueGasZone[1].tube.dz
EVA1.flueGasZone[1].tube.V
EVA1.flueGasZone[1].tube.A
EVA1.flueGasZone[1].tube.VTotal
EVA1.flueGasZone[1].tube.VCell
EVA1.flueGasZone[1].tube.sinphi
EVA1.flueGasZone[1].tube.fluid[1].h
EVA1.flueGasZone[1].tube.fluid[1].der(h)
EVA1.flueGasZone[1].tube.fluid[1].X[1]
EVA1.flueGasZone[1].tube.fluid[1].u
EVA1.flueGasZone[1].tube.fluid[1].R
EVA1.flueGasZone[1].tube.fluid[1].MM
EVA1.flueGasZone[1].tube.fluid[1].preferredMediumStates
EVA1.flueGasZone[1].tube.fluid[1].standardOrderComponents
EVA1.flueGasZone[1].tube.fluid[1].T_degC
EVA1.flueGasZone[1].tube.fluid[1].p_bar
EVA1.flueGasZone[1].tube.fluid[1].sat.Tsat
EVA1.flueGasZone[1].tube.fluid[1].phase
_GlobalScope.Modelica.Media.Water.waterConstants[1].molarMass
_GlobalScope.Modelica.Media.Water.waterConstants[1].criticalTemperature
_GlobalScope.Modelica.Media.Water.waterConstants[1].criticalPressure
_GlobalScope.Modelica.Media.Water.waterConstants[1].criticalMolarVolume
_GlobalScope.Modelica.Media.Water.waterConstants[1].acentricFactor
_GlobalScope.Modelica.Media.Water.waterConstants[1].triplePointTemperature
_GlobalScope.Modelica.Media.Water.waterConstants[1].triplePointPressure
_GlobalScope.Modelica.Media.Water.waterConstants[1].meltingPoint
_GlobalScope.Modelica.Media.Water.waterConstants[1].normalBoilingPoint
_GlobalScope.Modelica.Media.Water.waterConstants[1].dipoleMoment
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasIdealGasHeatCapacity
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasCriticalData
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasDipoleMoment
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasFundamentalEquation
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasLiquidHeatCapacity
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasSolidHeatCapacity
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasAccurateViscosityData
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasAccurateConductivityData
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasVapourPressureCurve
_GlobalScope.Modelica.Media.Water.waterConstants[1].hasAcentricFactor
_GlobalScope.Modelica.Media.Water.waterConstants[1].HCRIT0
_GlobalScope.Modelica.Media.Water.waterConstants[1].SCRIT0
_GlobalScope.Modelica.Media.Water.waterConstants[1].deltah
_GlobalScope.Modelica.Media.Water.waterConstants[1].deltas
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].molarMass
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].criticalTemperature
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].criticalPressure
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].criticalMolarVolume
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].acentricFactor
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].triplePointTemperature
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].triplePointPressure
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].meltingPoint
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].normalBoilingPoint
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].dipoleMoment
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasIdealGasHeatCapacity
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasCriticalData
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasDipoleMoment
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasFundamentalEquation
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasLiquidHeatCapacity
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasSolidHeatCapacity
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasAccurateViscosityData
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasAccurateConductivityData
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasVapourPressureCurve
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasAcentricFactor
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].HCRIT0
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].SCRIT0
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].deltah
_GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].deltas
EVA1.flueGasZone[1].tube.fluid[2].p
EVA1.flueGasZone[1].tube.fluid[2].der(p)
EVA1.flueGasZone[1].tube.fluid[2].h
EVA1.flueGasZone[1].tube.fluid[2].der(h)
EVA1.flueGasZone[1].tube.fluid[2].X[1]
EVA1.flueGasZone[1].tube.fluid[2].u
EVA1.flueGasZone[1].tube.fluid[2].R
EVA1.flueGasZone[1].tube.fluid[2].MM
EVA1.flueGasZone[1].tube.fluid[2].preferredMediumStates
EVA1.flueGasZone[1].tube.fluid[2].standardOrderComponents
EVA1.flueGasZone[1].tube.fluid[2].T_degC
EVA1.flueGasZone[1].tube.fluid[2].p_bar
EVA1.flueGasZone[1].tube.fluid[2].sat.Tsat
EVA1.flueGasZone[1].tube.fluid[2].phase
EVA1.flueGasZone[1].tube.fluid[3].h
EVA1.flueGasZone[1].tube.fluid[3].der(h)
EVA1.flueGasZone[1].tube.fluid[3].X[1]
EVA1.flueGasZone[1].tube.fluid[3].u
EVA1.flueGasZone[1].tube.fluid[3].R
EVA1.flueGasZone[1].tube.fluid[3].MM
EVA1.flueGasZone[1].tube.fluid[3].preferredMediumStates
EVA1.flueGasZone[1].tube.fluid[3].standardOrderComponents
EVA1.flueGasZone[1].tube.fluid[3].T_degC
EVA1.flueGasZone[1].tube.fluid[3].p_bar
EVA1.flueGasZone[1].tube.fluid[3].sat.Tsat
EVA1.flueGasZone[1].tube.fluid[3].phase
EVA1.flueGasZone[1].tube.fluid[4].h
EVA1.flueGasZone[1].tube.fluid[4].der(h)
EVA1.flueGasZone[1].tube.fluid[4].X[1]
EVA1.flueGasZone[1].tube.fluid[4].u
EVA1.flueGasZone[1].tube.fluid[4].R
EVA1.flueGasZone[1].tube.fluid[4].MM
EVA1.flueGasZone[1].tube.fluid[4].preferredMediumStates
EVA1.flueGasZone[1].tube.fluid[4].standardOrderComponents
EVA1.flueGasZone[1].tube.fluid[4].T_degC
EVA1.flueGasZone[1].tube.fluid[4].p_bar
EVA1.flueGasZone[1].tube.fluid[4].sat.Tsat
EVA1.flueGasZone[1].tube.fluid[4].phase
EVA1.flueGasZone[1].tube.fluid[5].h
EVA1.flueGasZone[1].tube.fluid[5].der(h)
EVA1.flueGasZone[1].tube.fluid[5].X[1]
EVA1.flueGasZone[1].tube.fluid[5].u
EVA1.flueGasZone[1].tube.fluid[5].R
EVA1.flueGasZone[1].tube.fluid[5].MM
EVA1.flueGasZone[1].tube.fluid[5].preferredMediumStates
EVA1.flueGasZone[1].tube.fluid[5].standardOrderComponents
EVA1.flueGasZone[1].tube.fluid[5].T_degC
EVA1.flueGasZone[1].tube.fluid[5].p_bar
EVA1.flueGasZone[1].tube.fluid[5].sat.Tsat
EVA1.flueGasZone[1].tube.fluid[5].phase
EVA1.flueGasZone[1].tube.m_flows[1]
EVA1.flueGasZone[1].tube.der(m_flows[1])
EVA1.flueGasZone[1].tube.d_av
EVA1.flueGasZone[1].tube.der(d_av)
EVA1.flueGasZone[1].tube.vol_av
EVA1.flueGasZone[1].tube.dpfric
EVA1.flueGasZone[1].tube.dphyd
EVA1.flueGasZone[1].tube.dpHyd_start
EVA1.flueGasZone[1].tube.dpFric_start
EVA1.flueGasZone[1].tube.T_start[1]
EVA1.flueGasZone[1].tube.T_start[2]
EVA1.flueGasZone[1].tube.T_start[3]
EVA1.flueGasZone[1].tube.T_start[4]
EVA1.flueGasZone[1].tube.T_start[5]
EVA1.flueGasZone[1].tube.d_start[1]
EVA1.flueGasZone[1].tube.d_start[2]
EVA1.flueGasZone[1].tube.d_start[3]
EVA1.flueGasZone[1].tube.d_start[4]
EVA1.flueGasZone[1].tube.d_start[5]
EVA1.flueGasZone[1].tube.q_start
EVA1.flueGasZone[1].tube.T[1]
EVA1.flueGasZone[1].tube.T[2]
EVA1.flueGasZone[1].tube.T[3]
EVA1.flueGasZone[1].tube.T[4]
EVA1.flueGasZone[1].tube.T[5]
EVA1.flueGasZone[1].tube.d[1]
EVA1.flueGasZone[1].tube.d[2]
EVA1.flueGasZone[1].tube.d[3]
EVA1.flueGasZone[1].tube.d[4]
EVA1.flueGasZone[1].tube.d[5]
EVA1.flueGasZone[1].tube.der(d[1])
EVA1.flueGasZone[1].tube.der(d[2])
EVA1.flueGasZone[1].tube.der(d[3])
EVA1.flueGasZone[1].tube.der(d[4])
EVA1.flueGasZone[1].tube.der(d[5])
EVA1.flueGasZone[1].tube.vol[1]
EVA1.flueGasZone[1].tube.vol[2]
EVA1.flueGasZone[1].tube.vol[3]
EVA1.flueGasZone[1].tube.vol[4]
EVA1.flueGasZone[1].tube.vol[5]
EVA1.flueGasZone[1].tube.cp[1]
EVA1.flueGasZone[1].tube.cp[2]
EVA1.flueGasZone[1].tube.cp[3]
EVA1.flueGasZone[1].tube.cp[4]
EVA1.flueGasZone[1].tube.cp[5]
EVA1.flueGasZone[1].tube.eta[1]
EVA1.flueGasZone[1].tube.eta[2]
EVA1.flueGasZone[1].tube.eta[3]
EVA1.flueGasZone[1].tube.eta[4]
EVA1.flueGasZone[1].tube.eta[5]
EVA1.flueGasZone[1].tube.lambda[1]
EVA1.flueGasZone[1].tube.lambda[2]
EVA1.flueGasZone[1].tube.lambda[3]
EVA1.flueGasZone[1].tube.lambda[4]
EVA1.flueGasZone[1].tube.lambda[5]
EVA1.flueGasZone[1].tube.E_flows[1]
EVA1.flueGasZone[1].tube.E_flows[2]
EVA1.flueGasZone[1].tube.E_flows[3]
EVA1.flueGasZone[1].tube.E_flows[4]
EVA1.flueGasZone[1].tube.E_flows[5]
EVA1.flueGasZone[1].tube.qHeating[1]
EVA1.flueGasZone[1].tube.qHeating[2]
EVA1.flueGasZone[1].tube.qHeating[3]
EVA1.flueGasZone[1].tube.qHeating[4]
EVA1.flueGasZone[1].tube.qHeating[5]
EVA1.flueGasZone[1].tube.useDelayedPressure
EVA1.flueGasZone[1].tube.timeDelayOfPressure
EVA1.flueGasZone[1].tube.hydM
EVA1.flueGasZone[1].tube.hydP
EVA1.flueGasZone[1].tube.friction.geoPipe.Nt
EVA1.flueGasZone[1].tube.friction.geoPipe.L
EVA1.flueGasZone[1].tube.friction.geoPipe.H
EVA1.flueGasZone[1].tube.friction.geoPipe.d_out
EVA1.flueGasZone[1].tube.friction.geoPipe.s
EVA1.flueGasZone[1].tube.friction.geoPipe.r
EVA1.flueGasZone[1].tube.friction.geoPipe.zeta_add
EVA1.flueGasZone[1].tube.friction.geoPipe.isCylindric
EVA1.flueGasZone[1].tube.friction.geoPipe.A
EVA1.flueGasZone[1].tube.friction.dz
EVA1.flueGasZone[1].tube.friction.lambda
EVA1.flueGasZone[1].tube.friction.steamQuality
EVA1.flueGasZone[1].tube.friction.xdo
EVA1.flueGasZone[1].tube.friction.isSinglePhase
EVA1.flueGasZone[1].tube.friction.m_flowLaminar
EVA1.flueGasZone[1].tube.friction.diameterInner
EVA1.flueGasZone[1].tube.friction.A
EVA1.flueGasZone[1].tube.friction.zeta
EVA1.flueGasZone[1].tube.TWall[1]
EVA1.flueGasZone[1].tube.TWall[2]
EVA1.flueGasZone[1].tube.TWall[3]
EVA1.flueGasZone[1].tube.TWall[4]
EVA1.flueGasZone[1].tube.TWall[5]
EVA1.flueGasZone[1].tube.delayInnerHeatTransfer
EVA1.flueGasZone[1].tube.timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[1].tube.useHeatInput
EVA1.flueGasZone[1].tube.initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[1].tube.alpha_start
EVA1.flueGasZone[1].tube.numberOfWallLayers
EVA1.flueGasZone[1].tube.TWall_start[1]
EVA1.flueGasZone[1].tube.TWall_start[2]
EVA1.flueGasZone[1].tube.TWall_start[3]
EVA1.flueGasZone[1].tube.TWall_start[4]
EVA1.flueGasZone[1].tube.TWall_start[5]
EVA1.flueGasZone[1].tube.metal.cp
EVA1.flueGasZone[1].tube.metal.lambda
EVA1.flueGasZone[1].tube.metal.rho
EVA1.flueGasZone[1].tube.stressCoeffofWall.eta
EVA1.flueGasZone[1].tube.stressCoeffofWall.alpha_t
EVA1.flueGasZone[1].tube.stressCoeffofWall.alpha_m
EVA1.flueGasZone[1].tube.stressCoeffofWall.beta
EVA1.flueGasZone[1].tube.stressCoeffofWall.E
EVA1.flueGasZone[1].tube.heatPort[1].Q_flow
EVA1.flueGasZone[1].tube.heatPort[2].Q_flow
EVA1.flueGasZone[1].tube.heatPort[3].Q_flow
EVA1.flueGasZone[1].tube.heatPort[4].Q_flow
EVA1.flueGasZone[1].tube.heatPort[5].Q_flow
EVA1.flueGasZone[1].tube.wall.numberOfNodes
EVA1.flueGasZone[1].tube.wall.numberOfWallLayers
EVA1.flueGasZone[1].tube.wall.assumePlainHeatTransfer
EVA1.flueGasZone[1].tube.wall.metal.cp
EVA1.flueGasZone[1].tube.wall.metal.lambda
EVA1.flueGasZone[1].tube.wall.metal.rho
EVA1.flueGasZone[1].tube.wall.numberOfParallelTubes
EVA1.flueGasZone[1].tube.wall.length
EVA1.flueGasZone[1].tube.wall.diameterInner
EVA1.flueGasZone[1].tube.wall.wallThickness
EVA1.flueGasZone[1].tube.wall.useDynamicEquations
EVA1.flueGasZone[1].tube.wall.considerConductivity
EVA1.flueGasZone[1].tube.wall.considerAxialHeatTransfer
EVA1.flueGasZone[1].tube.wall.T_start[1]
EVA1.flueGasZone[1].tube.wall.T_start[2]
EVA1.flueGasZone[1].tube.wall.T_start[3]
EVA1.flueGasZone[1].tube.wall.T_start[4]
EVA1.flueGasZone[1].tube.wall.T_start[5]
EVA1.flueGasZone[1].tube.wall.layer[1].pi
EVA1.flueGasZone[1].tube.wall.layer[1].numberOfNodes
EVA1.flueGasZone[1].tube.wall.layer[1].assumePlainHeatTransfer
EVA1.flueGasZone[1].tube.wall.layer[1].metal.cp
EVA1.flueGasZone[1].tube.wall.layer[1].metal.lambda
EVA1.flueGasZone[1].tube.wall.layer[1].metal.rho
EVA1.flueGasZone[1].tube.wall.layer[1].numberOfParallelTubes
EVA1.flueGasZone[1].tube.wall.layer[1].length
EVA1.flueGasZone[1].tube.wall.layer[1].diameterInner
EVA1.flueGasZone[1].tube.wall.layer[1].wallThickness
EVA1.flueGasZone[1].tube.wall.layer[1].useDynamicEquations
EVA1.flueGasZone[1].tube.wall.layer[1].considerConductivity
EVA1.flueGasZone[1].tube.wall.layer[1].considerAxialHeatTransfer
EVA1.flueGasZone[1].tube.wall.layer[1].T_start[1]
EVA1.flueGasZone[1].tube.wall.layer[1].T_start[2]
EVA1.flueGasZone[1].tube.wall.layer[1].T_start[3]
EVA1.flueGasZone[1].tube.wall.layer[1].T_start[4]
EVA1.flueGasZone[1].tube.wall.layer[1].T_start[5]
EVA1.flueGasZone[1].tube.wall.layer[1].port_int[1].Q_flow
EVA1.flueGasZone[1].tube.wall.layer[1].port_int[2].Q_flow
EVA1.flueGasZone[1].tube.wall.layer[1].port_int[3].Q_flow
EVA1.flueGasZone[1].tube.wall.layer[1].port_int[4].Q_flow
EVA1.flueGasZone[1].tube.wall.layer[1].port_int[5].Q_flow
EVA1.flueGasZone[1].tube.wall.layer[1].Am
EVA1.flueGasZone[1].tube.wall.layer[1].T[1]
EVA1.flueGasZone[1].tube.wall.layer[1].der(T[1])
EVA1.flueGasZone[1].tube.wall.layer[1].T[2]
EVA1.flueGasZone[1].tube.wall.layer[1].der(T[2])
EVA1.flueGasZone[1].tube.wall.layer[1].T[3]
EVA1.flueGasZone[1].tube.wall.layer[1].der(T[3])
EVA1.flueGasZone[1].tube.wall.layer[1].T[4]
EVA1.flueGasZone[1].tube.wall.layer[1].der(T[4])
EVA1.flueGasZone[1].tube.wall.layer[1].T[5]
EVA1.flueGasZone[1].tube.wall.layer[1].der(T[5])
EVA1.flueGasZone[1].tube.wall.layer[1].rint
EVA1.flueGasZone[1].tube.wall.layer[1].rext
EVA1.flueGasZone[1].tube.wall.layer[1].Tube_mass
EVA1.flueGasZone[1].tube.wall.layer[1].HeatCap
EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[1]
EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[2]
EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[3]
EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[4]
EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[5]
EVA1.flueGasZone[1].tube.wall.stress.eta
EVA1.flueGasZone[1].tube.wall.stress.alpha_t
EVA1.flueGasZone[1].tube.wall.stress.alpha_m
EVA1.flueGasZone[1].tube.wall.stress.beta
EVA1.flueGasZone[1].tube.wall.stress.E
EVA1.flueGasZone[1].tube.wall.dT
EVA1.flueGasZone[1].tube.wall.ft
EVA1.flueGasZone[1].tube.wall.fm
EVA1.flueGasZone[1].tube.wall.tension
EVA1.flueGasZone[1].tube.heatport.numberOfNodes
EVA1.flueGasZone[1].tube.alpha[1]
EVA1.flueGasZone[1].tube.alpha[2]
EVA1.flueGasZone[1].tube.alpha[3]
EVA1.flueGasZone[1].tube.alpha[4]
EVA1.flueGasZone[1].tube.alpha[5]
EVA1.flueGasZone[1].tube.HT[1].geoPipe.Nt
EVA1.flueGasZone[1].tube.HT[1].geoPipe.L
EVA1.flueGasZone[1].tube.HT[1].geoPipe.H
EVA1.flueGasZone[1].tube.HT[1].geoPipe.d_out
EVA1.flueGasZone[1].tube.HT[1].geoPipe.s
EVA1.flueGasZone[1].tube.HT[1].geoPipe.r
EVA1.flueGasZone[1].tube.HT[1].geoPipe.zeta_add
EVA1.flueGasZone[1].tube.HT[1].geoPipe.isCylindric
EVA1.flueGasZone[1].tube.HT[1].geoPipe.A
EVA1.flueGasZone[1].tube.HT[1].diameterInner
EVA1.flueGasZone[1].tube.HT[1].steamQuality
EVA1.flueGasZone[1].tube.HT[1].dT
EVA1.flueGasZone[1].tube.HT[1].xdo
EVA1.flueGasZone[1].tube.HT[1].isSinglePhase
EVA1.flueGasZone[1].tube.HT[1].A
EVA1.flueGasZone[1].tube.HT[2].geoPipe.Nt
EVA1.flueGasZone[1].tube.HT[2].geoPipe.L
EVA1.flueGasZone[1].tube.HT[2].geoPipe.H
EVA1.flueGasZone[1].tube.HT[2].geoPipe.d_out
EVA1.flueGasZone[1].tube.HT[2].geoPipe.s
EVA1.flueGasZone[1].tube.HT[2].geoPipe.r
EVA1.flueGasZone[1].tube.HT[2].geoPipe.zeta_add
EVA1.flueGasZone[1].tube.HT[2].geoPipe.isCylindric
EVA1.flueGasZone[1].tube.HT[2].geoPipe.A
EVA1.flueGasZone[1].tube.HT[2].diameterInner
EVA1.flueGasZone[1].tube.HT[2].steamQuality
EVA1.flueGasZone[1].tube.HT[2].dT
EVA1.flueGasZone[1].tube.HT[2].xdo
EVA1.flueGasZone[1].tube.HT[2].isSinglePhase
EVA1.flueGasZone[1].tube.HT[2].A
EVA1.flueGasZone[1].tube.HT[3].geoPipe.Nt
EVA1.flueGasZone[1].tube.HT[3].geoPipe.L
EVA1.flueGasZone[1].tube.HT[3].geoPipe.H
EVA1.flueGasZone[1].tube.HT[3].geoPipe.d_out
EVA1.flueGasZone[1].tube.HT[3].geoPipe.s
EVA1.flueGasZone[1].tube.HT[3].geoPipe.r
EVA1.flueGasZone[1].tube.HT[3].geoPipe.zeta_add
EVA1.flueGasZone[1].tube.HT[3].geoPipe.isCylindric
EVA1.flueGasZone[1].tube.HT[3].geoPipe.A
EVA1.flueGasZone[1].tube.HT[3].diameterInner
EVA1.flueGasZone[1].tube.HT[3].steamQuality
EVA1.flueGasZone[1].tube.HT[3].dT
EVA1.flueGasZone[1].tube.HT[3].xdo
EVA1.flueGasZone[1].tube.HT[3].isSinglePhase
EVA1.flueGasZone[1].tube.HT[3].A
EVA1.flueGasZone[1].tube.HT[4].geoPipe.Nt
EVA1.flueGasZone[1].tube.HT[4].geoPipe.L
EVA1.flueGasZone[1].tube.HT[4].geoPipe.H
EVA1.flueGasZone[1].tube.HT[4].geoPipe.d_out
EVA1.flueGasZone[1].tube.HT[4].geoPipe.s
EVA1.flueGasZone[1].tube.HT[4].geoPipe.r
EVA1.flueGasZone[1].tube.HT[4].geoPipe.zeta_add
EVA1.flueGasZone[1].tube.HT[4].geoPipe.isCylindric
EVA1.flueGasZone[1].tube.HT[4].geoPipe.A
EVA1.flueGasZone[1].tube.HT[4].diameterInner
EVA1.flueGasZone[1].tube.HT[4].steamQuality
EVA1.flueGasZone[1].tube.HT[4].dT
EVA1.flueGasZone[1].tube.HT[4].xdo
EVA1.flueGasZone[1].tube.HT[4].isSinglePhase
EVA1.flueGasZone[1].tube.HT[4].A
EVA1.flueGasZone[1].tube.HT[5].geoPipe.Nt
EVA1.flueGasZone[1].tube.HT[5].geoPipe.L
EVA1.flueGasZone[1].tube.HT[5].geoPipe.H
EVA1.flueGasZone[1].tube.HT[5].geoPipe.d_out
EVA1.flueGasZone[1].tube.HT[5].geoPipe.s
EVA1.flueGasZone[1].tube.HT[5].geoPipe.r
EVA1.flueGasZone[1].tube.HT[5].geoPipe.zeta_add
EVA1.flueGasZone[1].tube.HT[5].geoPipe.isCylindric
EVA1.flueGasZone[1].tube.HT[5].geoPipe.A
EVA1.flueGasZone[1].tube.HT[5].diameterInner
EVA1.flueGasZone[1].tube.HT[5].steamQuality
EVA1.flueGasZone[1].tube.HT[5].dT
EVA1.flueGasZone[1].tube.HT[5].xdo
EVA1.flueGasZone[1].tube.HT[5].isSinglePhase
EVA1.flueGasZone[1].tube.HT[5].A
EVA1.flueGasZone[1].heatTransfer.numberOfNodes
EVA1.flueGasZone[1].heatTransfer.lengthRe
EVA1.flueGasZone[1].heatTransfer.lengthNu
EVA1.flueGasZone[1].heatTransfer.ACrossFlow
EVA1.flueGasZone[1].heatTransfer.AHeatTransfer
EVA1.flueGasZone[1].heatTransfer.geoFGZ.pt
EVA1.flueGasZone[1].heatTransfer.geoFGZ.pl
EVA1.flueGasZone[1].heatTransfer.geoFGZ.Lw
EVA1.flueGasZone[1].heatTransfer.geoFGZ.Ld
EVA1.flueGasZone[1].heatTransfer.geoFGZ.Lh
EVA1.flueGasZone[1].heatTransfer.geoFGZ.Nr
EVA1.flueGasZone[1].heatTransfer.geoFGZ.staggered
EVA1.flueGasZone[1].heatTransfer.geoFins.finned
EVA1.flueGasZone[1].heatTransfer.geoFins.serrated
EVA1.flueGasZone[1].heatTransfer.geoFins.h
EVA1.flueGasZone[1].heatTransfer.geoFins.s
EVA1.flueGasZone[1].heatTransfer.geoFins.b
EVA1.flueGasZone[1].heatTransfer.geoFins.w
EVA1.flueGasZone[1].heatTransfer.geoFins.n
EVA1.flueGasZone[1].heatTransfer.geoPipe.Nt
EVA1.flueGasZone[1].heatTransfer.geoPipe.L
EVA1.flueGasZone[1].heatTransfer.geoPipe.H
EVA1.flueGasZone[1].heatTransfer.geoPipe.d_out
EVA1.flueGasZone[1].heatTransfer.geoPipe.s
EVA1.flueGasZone[1].heatTransfer.geoPipe.r
EVA1.flueGasZone[1].heatTransfer.geoPipe.zeta_add
EVA1.flueGasZone[1].heatTransfer.geoPipe.isCylindric
EVA1.flueGasZone[1].heatTransfer.geoPipe.A
EVA1.flueGasZone[1].heatTransfer.alpha_start
EVA1.flueGasZone[1].heatTransfer.state.p
EVA1.flueGasZone[1].heatTransfer.state.T
EVA1.flueGasZone[1].heatTransfer.state.X[1]
EVA1.flueGasZone[1].heatTransfer.state.X[2]
EVA1.flueGasZone[1].heatTransfer.state.X[3]
EVA1.flueGasZone[1].heatTransfer.state.X[4]
EVA1.flueGasZone[1].heatTransfer.state.X[5]
EVA1.flueGasZone[1].heatTransfer.state.X[6]
EVA1.flueGasZone[1].heatTransfer.Re
EVA1.flueGasZone[1].heatTransfer.Pr
EVA1.flueGasZone[1].heatTransfer.Nu[1]
EVA1.flueGasZone[1].heatTransfer.Nu[2]
EVA1.flueGasZone[1].heatTransfer.Nu[3]
EVA1.flueGasZone[1].heatTransfer.Nu[4]
EVA1.flueGasZone[1].heatTransfer.Nu[5]
EVA1.flueGasZone[1].heatTransfer.cp
EVA1.flueGasZone[1].heatTransfer.eta
EVA1.flueGasZone[1].heatTransfer.lambda
EVA1.flueGasZone[1].heatTransfer.Psi
EVA1.flueGasZone[1].heatTransfer.heatingSurfaceFactor_set
EVA1.flueGasZone[1].mediumGasOut.h
EVA1.flueGasZone[1].mediumGasOut.der(h)
EVA1.flueGasZone[1].mediumGasOut.d
EVA1.flueGasZone[1].mediumGasOut.X[1]
EVA1.flueGasZone[1].mediumGasOut.X[2]
EVA1.flueGasZone[1].mediumGasOut.X[3]
EVA1.flueGasZone[1].mediumGasOut.X[4]
EVA1.flueGasZone[1].mediumGasOut.X[5]
EVA1.flueGasZone[1].mediumGasOut.X[6]
EVA1.flueGasZone[1].mediumGasOut.u
EVA1.flueGasZone[1].mediumGasOut.R
EVA1.flueGasZone[1].mediumGasOut.MM
EVA1.flueGasZone[1].mediumGasOut.state.p
EVA1.flueGasZone[1].mediumGasOut.state.T
EVA1.flueGasZone[1].mediumGasOut.state.X[1]
EVA1.flueGasZone[1].mediumGasOut.state.X[2]
EVA1.flueGasZone[1].mediumGasOut.state.X[3]
EVA1.flueGasZone[1].mediumGasOut.state.X[4]
EVA1.flueGasZone[1].mediumGasOut.state.X[5]
EVA1.flueGasZone[1].mediumGasOut.state.X[6]
EVA1.flueGasZone[1].mediumGasOut.preferredMediumStates
EVA1.flueGasZone[1].mediumGasOut.standardOrderComponents
EVA1.flueGasZone[1].mediumGasOut.T_degC
EVA1.flueGasZone[1].mediumGasOut.p_bar
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.MM
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.Hf
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.H0
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.Tlimit
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.blow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.blow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.bhigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.bhigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.R
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.MM
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.Hf
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.H0
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.Tlimit
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.blow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.blow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.bhigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.bhigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.R
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.MM
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.Hf
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.H0
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.Tlimit
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.blow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.blow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.bhigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.bhigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.R
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.MM
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.Hf
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.H0
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.Tlimit
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.blow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.blow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.bhigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.bhigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.R
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.MM
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.Hf
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.H0
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.Tlimit
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.blow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.blow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.bhigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.bhigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.R
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.MM
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.Hf
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.H0
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.Tlimit
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.blow[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.blow[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[3]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[4]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[5]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[6]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[7]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.bhigh[1]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.bhigh[2]
_GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.R
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].MM
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].Hf
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].H0
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].Tlimit
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].blow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].blow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].bhigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].bhigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].R
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].MM
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].Hf
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].H0
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].Tlimit
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].blow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].blow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].bhigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].bhigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].R
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].MM
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].Hf
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].H0
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].Tlimit
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].blow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].blow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].bhigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].bhigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].R
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].MM
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].Hf
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].H0
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].Tlimit
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].blow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].blow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].bhigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].bhigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].R
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].MM
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].Hf
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].H0
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].Tlimit
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].blow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].blow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].bhigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].bhigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].R
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].MM
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].Hf
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].H0
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].Tlimit
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].blow[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].blow[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[3]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[4]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[5]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[6]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[7]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].bhigh[1]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].bhigh[2]
_GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].R
EVA1.flueGasZone[1].mediumGas.h
EVA1.flueGasZone[1].mediumGas.d
EVA1.flueGasZone[1].mediumGas.X[1]
EVA1.flueGasZone[1].mediumGas.X[2]
EVA1.flueGasZone[1].mediumGas.X[3]
EVA1.flueGasZone[1].mediumGas.X[4]
EVA1.flueGasZone[1].mediumGas.X[5]
EVA1.flueGasZone[1].mediumGas.X[6]
EVA1.flueGasZone[1].mediumGas.u
EVA1.flueGasZone[1].mediumGas.R
EVA1.flueGasZone[1].mediumGas.MM
EVA1.flueGasZone[1].mediumGas.state.p
EVA1.flueGasZone[1].mediumGas.state.T
EVA1.flueGasZone[1].mediumGas.state.X[1]
EVA1.flueGasZone[1].mediumGas.state.X[2]
EVA1.flueGasZone[1].mediumGas.state.X[3]
EVA1.flueGasZone[1].mediumGas.state.X[4]
EVA1.flueGasZone[1].mediumGas.state.X[5]
EVA1.flueGasZone[1].mediumGas.state.X[6]
EVA1.flueGasZone[1].mediumGas.preferredMediumStates
EVA1.flueGasZone[1].mediumGas.standardOrderComponents
EVA1.flueGasZone[1].mediumGas.T_degC
EVA1.flueGasZone[1].mediumGas.p_bar
EVA1.flueGasZone[1].mediumGasIn.h
EVA1.flueGasZone[1].mediumGasIn.d
EVA1.flueGasZone[1].mediumGasIn.X[1]
EVA1.flueGasZone[1].mediumGasIn.X[2]
EVA1.flueGasZone[1].mediumGasIn.X[3]
EVA1.flueGasZone[1].mediumGasIn.X[4]
EVA1.flueGasZone[1].mediumGasIn.X[5]
EVA1.flueGasZone[1].mediumGasIn.X[6]
EVA1.flueGasZone[1].mediumGasIn.u
EVA1.flueGasZone[1].mediumGasIn.R
EVA1.flueGasZone[1].mediumGasIn.MM
EVA1.flueGasZone[1].mediumGasIn.state.p
EVA1.flueGasZone[1].mediumGasIn.state.T
EVA1.flueGasZone[1].mediumGasIn.state.X[1]
EVA1.flueGasZone[1].mediumGasIn.state.X[2]
EVA1.flueGasZone[1].mediumGasIn.state.X[3]
EVA1.flueGasZone[1].mediumGasIn.state.X[4]
EVA1.flueGasZone[1].mediumGasIn.state.X[5]
EVA1.flueGasZone[1].mediumGasIn.state.X[6]
EVA1.flueGasZone[1].mediumGasIn.preferredMediumStates
EVA1.flueGasZone[1].mediumGasIn.standardOrderComponents
EVA1.flueGasZone[1].mediumGasIn.T_degC
EVA1.flueGasZone[1].mediumGasIn.p_bar
EVA1.flueGasZone[1].state_gas.X[1]
EVA1.flueGasZone[1].state_gas.X[2]
EVA1.flueGasZone[1].state_gas.X[3]
EVA1.flueGasZone[1].state_gas.X[4]
EVA1.flueGasZone[1].state_gas.X[5]
EVA1.flueGasZone[1].state_gas.X[6]
EVA1.flueGasZone[1].V_gas
EVA1.flueGasZone[1].deltaT[1]
EVA1.flueGasZone[1].deltaT[2]
EVA1.flueGasZone[1].deltaT[3]
EVA1.flueGasZone[1].deltaT[4]
EVA1.flueGasZone[1].deltaT[5]
EVA1.flueGasZone[1].T_start[1]
EVA1.flueGasZone[1].T_start[2]
EVA1.flueGasZone[1].T_start[3]
EVA1.flueGasZone[1].T_start[4]
EVA1.flueGasZone[1].T_start[5]
EVA1.flueGasZone[1].lengthCharacteristicRe
EVA1.flueGasZone[1].Ah
EVA1.flueGasZone[1].temperatureRate[1]
EVA1.flueGasZone[1].temperatureRate[2]
EVA1.flueGasZone[1].temperatureRate[3]
EVA1.flueGasZone[1].temperatureRate[4]
EVA1.flueGasZone[1].temperatureRate[5]
EVA1.flueGasZone[1].fins.pi
EVA1.flueGasZone[1].fins.numberOfNodes
EVA1.flueGasZone[1].fins.geoFins.finned
EVA1.flueGasZone[1].fins.geoFins.serrated
EVA1.flueGasZone[1].fins.geoFins.h
EVA1.flueGasZone[1].fins.geoFins.s
EVA1.flueGasZone[1].fins.geoFins.b
EVA1.flueGasZone[1].fins.geoFins.w
EVA1.flueGasZone[1].fins.geoFins.n
EVA1.flueGasZone[1].fins.geoPipe.Nt
EVA1.flueGasZone[1].fins.geoPipe.L
EVA1.flueGasZone[1].fins.geoPipe.H
EVA1.flueGasZone[1].fins.geoPipe.d_out
EVA1.flueGasZone[1].fins.geoPipe.s
EVA1.flueGasZone[1].fins.geoPipe.r
EVA1.flueGasZone[1].fins.geoPipe.zeta_add
EVA1.flueGasZone[1].fins.geoPipe.isCylindric
EVA1.flueGasZone[1].fins.geoPipe.A
EVA1.flueGasZone[1].fins.metal.cp
EVA1.flueGasZone[1].fins.metal.lambda
EVA1.flueGasZone[1].fins.metal.rho
EVA1.flueGasZone[1].fins.T_start[1]
EVA1.flueGasZone[1].fins.T_start[2]
EVA1.flueGasZone[1].fins.T_start[3]
EVA1.flueGasZone[1].fins.T_start[4]
EVA1.flueGasZone[1].fins.T_start[5]
EVA1.flueGasZone[1].fins.useDynamicEquations
EVA1.flueGasZone[1].fins.T[1]
EVA1.flueGasZone[1].fins.der(T[1])
EVA1.flueGasZone[1].fins.T[2]
EVA1.flueGasZone[1].fins.der(T[2])
EVA1.flueGasZone[1].fins.T[3]
EVA1.flueGasZone[1].fins.der(T[3])
EVA1.flueGasZone[1].fins.T[4]
EVA1.flueGasZone[1].fins.der(T[4])
EVA1.flueGasZone[1].fins.T[5]
EVA1.flueGasZone[1].fins.der(T[5])
EVA1.flueGasZone[1].fins.V
EVA1.flueGasZone[1].fins.M
EVA1.flueGasZone[1].fins.Cp
EVA1.flueGasZone[1].heatPortToGas.numberOfNodes
EVA1.flueGasZone[1].heatPortToGas.Q_flow[1]
EVA1.flueGasZone[1].heatPortToGas.Q_flow[2]
EVA1.flueGasZone[1].heatPortToGas.Q_flow[3]
EVA1.flueGasZone[1].heatPortToGas.Q_flow[4]
EVA1.flueGasZone[1].heatPortToGas.Q_flow[5]
EVA1.flueGasZone[2].pi
EVA1.flueGasZone[2].numberOfTubeNodes
EVA1.flueGasZone[2].numberOfWallLayers
EVA1.flueGasZone[2].hydraulicResistance_gas
EVA1.flueGasZone[2].delayInnerHeatTransfer
EVA1.flueGasZone[2].timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[2].m_flow_start
EVA1.flueGasZone[2].pIn_start
EVA1.flueGasZone[2].pOut_start
EVA1.flueGasZone[2].hIn_start
EVA1.flueGasZone[2].hOut_start
EVA1.flueGasZone[2].pGas_start
EVA1.flueGasZone[2].TGasIn_start
EVA1.flueGasZone[2].TGasOut_start
EVA1.flueGasZone[2].m_flowGas_start
EVA1.flueGasZone[2].initializeInletPressure
EVA1.flueGasZone[2].initializeSteadyStateEnthalpies
EVA1.flueGasZone[2].initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[2].useHeatInput
EVA1.flueGasZone[2].initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[2].TWall_start[1]
EVA1.flueGasZone[2].TWall_start[2]
EVA1.flueGasZone[2].TWall_start[3]
EVA1.flueGasZone[2].TWall_start[4]
EVA1.flueGasZone[2].TWall_start[5]
EVA1.flueGasZone[2].geoFGZ.pt
EVA1.flueGasZone[2].geoFGZ.pl
EVA1.flueGasZone[2].geoFGZ.Lw
EVA1.flueGasZone[2].geoFGZ.Ld
EVA1.flueGasZone[2].geoFGZ.Lh
EVA1.flueGasZone[2].geoFGZ.Nr
EVA1.flueGasZone[2].geoFGZ.staggered
EVA1.flueGasZone[2].geoFins.finned
EVA1.flueGasZone[2].geoFins.serrated
EVA1.flueGasZone[2].geoFins.h
EVA1.flueGasZone[2].geoFins.s
EVA1.flueGasZone[2].geoFins.b
EVA1.flueGasZone[2].geoFins.w
EVA1.flueGasZone[2].geoFins.n
EVA1.flueGasZone[2].geoPipe.Nt
EVA1.flueGasZone[2].geoPipe.L
EVA1.flueGasZone[2].geoPipe.H
EVA1.flueGasZone[2].geoPipe.d_out
EVA1.flueGasZone[2].geoPipe.s
EVA1.flueGasZone[2].geoPipe.r
EVA1.flueGasZone[2].geoPipe.zeta_add
EVA1.flueGasZone[2].geoPipe.isCylindric
EVA1.flueGasZone[2].geoPipe.A
EVA1.flueGasZone[2].metal.cp
EVA1.flueGasZone[2].metal.lambda
EVA1.flueGasZone[2].metal.rho
EVA1.flueGasZone[2].cleanliness
EVA1.flueGasZone[2].computeHeatLossInPercent
EVA1.flueGasZone[2].heatloss
EVA1.flueGasZone[2].kLossToAmbient
EVA1.flueGasZone[2].T_ambient
EVA1.flueGasZone[2].Q_flowToAmbient[1]
EVA1.flueGasZone[2].Q_flowToAmbient[2]
EVA1.flueGasZone[2].Q_flowToAmbient[3]
EVA1.flueGasZone[2].Q_flowToAmbient[4]
EVA1.flueGasZone[2].Q_flowToAmbient[5]
EVA1.flueGasZone[2].tube.hIn
EVA1.flueGasZone[2].tube.hOut
EVA1.flueGasZone[2].tube.preferredStates
EVA1.flueGasZone[2].tube.m_flow_start
EVA1.flueGasZone[2].tube.pIn_start
EVA1.flueGasZone[2].tube.pOut_start
EVA1.flueGasZone[2].tube.useTemperatureStartValue
EVA1.flueGasZone[2].tube.hIn_start
EVA1.flueGasZone[2].tube.hOut_start
EVA1.flueGasZone[2].tube.TIn_start
EVA1.flueGasZone[2].tube.TOut_start
EVA1.flueGasZone[2].tube.XIn_start[1]
EVA1.flueGasZone[2].tube.XOut_start[1]
EVA1.flueGasZone[2].tube.useSubstanceStorage
EVA1.flueGasZone[2].tube.useEnergyStorage
EVA1.flueGasZone[2].tube.dp
EVA1.flueGasZone[2].tube.state_from_a.phase
EVA1.flueGasZone[2].tube.state_from_a.h
EVA1.flueGasZone[2].tube.state_from_a.d
EVA1.flueGasZone[2].tube.state_from_a.T
EVA1.flueGasZone[2].tube.state_from_b.phase
EVA1.flueGasZone[2].tube.state_from_b.h
EVA1.flueGasZone[2].tube.state_from_b.d
EVA1.flueGasZone[2].tube.state_from_b.T
EVA1.flueGasZone[2].tube.g
EVA1.flueGasZone[2].tube.pi
EVA1.flueGasZone[2].tube.numberOfNodes
EVA1.flueGasZone[2].tube.geoPipe.Nt
EVA1.flueGasZone[2].tube.geoPipe.L
EVA1.flueGasZone[2].tube.geoPipe.H
EVA1.flueGasZone[2].tube.geoPipe.d_out
EVA1.flueGasZone[2].tube.geoPipe.s
EVA1.flueGasZone[2].tube.geoPipe.r
EVA1.flueGasZone[2].tube.geoPipe.zeta_add
EVA1.flueGasZone[2].tube.geoPipe.isCylindric
EVA1.flueGasZone[2].tube.geoPipe.A
EVA1.flueGasZone[2].tube.initializeInletPressure
EVA1.flueGasZone[2].tube.initializeSteadyStateEnthalpies
EVA1.flueGasZone[2].tube.initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[2].tube.h_start[1]
EVA1.flueGasZone[2].tube.h_start[2]
EVA1.flueGasZone[2].tube.h_start[3]
EVA1.flueGasZone[2].tube.h_start[4]
EVA1.flueGasZone[2].tube.h_start[5]
EVA1.flueGasZone[2].tube.Q_flow_start[1]
EVA1.flueGasZone[2].tube.Q_flow_start[2]
EVA1.flueGasZone[2].tube.Q_flow_start[3]
EVA1.flueGasZone[2].tube.Q_flow_start[4]
EVA1.flueGasZone[2].tube.Q_flow_start[5]
EVA1.flueGasZone[2].tube.additionalVolume
EVA1.flueGasZone[2].tube.useDynamicMassBalance
EVA1.flueGasZone[2].tube.considerDynamicMomentum
EVA1.flueGasZone[2].tube.considerDynamicPressure
EVA1.flueGasZone[2].tube.heatedArea
EVA1.flueGasZone[2].tube.diameterInner
EVA1.flueGasZone[2].tube.dz
EVA1.flueGasZone[2].tube.V
EVA1.flueGasZone[2].tube.A
EVA1.flueGasZone[2].tube.VTotal
EVA1.flueGasZone[2].tube.VCell
EVA1.flueGasZone[2].tube.sinphi
EVA1.flueGasZone[2].tube.fluid[1].h
EVA1.flueGasZone[2].tube.fluid[1].der(h)
EVA1.flueGasZone[2].tube.fluid[1].X[1]
EVA1.flueGasZone[2].tube.fluid[1].u
EVA1.flueGasZone[2].tube.fluid[1].R
EVA1.flueGasZone[2].tube.fluid[1].MM
EVA1.flueGasZone[2].tube.fluid[1].preferredMediumStates
EVA1.flueGasZone[2].tube.fluid[1].standardOrderComponents
EVA1.flueGasZone[2].tube.fluid[1].T_degC
EVA1.flueGasZone[2].tube.fluid[1].p_bar
EVA1.flueGasZone[2].tube.fluid[1].sat.Tsat
EVA1.flueGasZone[2].tube.fluid[1].phase
EVA1.flueGasZone[2].tube.fluid[2].p
EVA1.flueGasZone[2].tube.fluid[2].der(p)
EVA1.flueGasZone[2].tube.fluid[2].h
EVA1.flueGasZone[2].tube.fluid[2].der(h)
EVA1.flueGasZone[2].tube.fluid[2].X[1]
EVA1.flueGasZone[2].tube.fluid[2].u
EVA1.flueGasZone[2].tube.fluid[2].R
EVA1.flueGasZone[2].tube.fluid[2].MM
EVA1.flueGasZone[2].tube.fluid[2].preferredMediumStates
EVA1.flueGasZone[2].tube.fluid[2].standardOrderComponents
EVA1.flueGasZone[2].tube.fluid[2].T_degC
EVA1.flueGasZone[2].tube.fluid[2].p_bar
EVA1.flueGasZone[2].tube.fluid[2].sat.Tsat
EVA1.flueGasZone[2].tube.fluid[2].phase
EVA1.flueGasZone[2].tube.fluid[3].h
EVA1.flueGasZone[2].tube.fluid[3].der(h)
EVA1.flueGasZone[2].tube.fluid[3].X[1]
EVA1.flueGasZone[2].tube.fluid[3].u
EVA1.flueGasZone[2].tube.fluid[3].R
EVA1.flueGasZone[2].tube.fluid[3].MM
EVA1.flueGasZone[2].tube.fluid[3].preferredMediumStates
EVA1.flueGasZone[2].tube.fluid[3].standardOrderComponents
EVA1.flueGasZone[2].tube.fluid[3].T_degC
EVA1.flueGasZone[2].tube.fluid[3].p_bar
EVA1.flueGasZone[2].tube.fluid[3].sat.Tsat
EVA1.flueGasZone[2].tube.fluid[3].phase
EVA1.flueGasZone[2].tube.fluid[4].h
EVA1.flueGasZone[2].tube.fluid[4].der(h)
EVA1.flueGasZone[2].tube.fluid[4].X[1]
EVA1.flueGasZone[2].tube.fluid[4].u
EVA1.flueGasZone[2].tube.fluid[4].R
EVA1.flueGasZone[2].tube.fluid[4].MM
EVA1.flueGasZone[2].tube.fluid[4].preferredMediumStates
EVA1.flueGasZone[2].tube.fluid[4].standardOrderComponents
EVA1.flueGasZone[2].tube.fluid[4].T_degC
EVA1.flueGasZone[2].tube.fluid[4].p_bar
EVA1.flueGasZone[2].tube.fluid[4].sat.Tsat
EVA1.flueGasZone[2].tube.fluid[4].phase
EVA1.flueGasZone[2].tube.fluid[5].h
EVA1.flueGasZone[2].tube.fluid[5].der(h)
EVA1.flueGasZone[2].tube.fluid[5].X[1]
EVA1.flueGasZone[2].tube.fluid[5].u
EVA1.flueGasZone[2].tube.fluid[5].R
EVA1.flueGasZone[2].tube.fluid[5].MM
EVA1.flueGasZone[2].tube.fluid[5].preferredMediumStates
EVA1.flueGasZone[2].tube.fluid[5].standardOrderComponents
EVA1.flueGasZone[2].tube.fluid[5].T_degC
EVA1.flueGasZone[2].tube.fluid[5].p_bar
EVA1.flueGasZone[2].tube.fluid[5].sat.Tsat
EVA1.flueGasZone[2].tube.fluid[5].phase
EVA1.flueGasZone[2].tube.m_flows[1]
EVA1.flueGasZone[2].tube.der(m_flows[1])
EVA1.flueGasZone[2].tube.d_av
EVA1.flueGasZone[2].tube.der(d_av)
EVA1.flueGasZone[2].tube.vol_av
EVA1.flueGasZone[2].tube.dpfric
EVA1.flueGasZone[2].tube.dphyd
EVA1.flueGasZone[2].tube.dpHyd_start
EVA1.flueGasZone[2].tube.dpFric_start
EVA1.flueGasZone[2].tube.T_start[1]
EVA1.flueGasZone[2].tube.T_start[2]
EVA1.flueGasZone[2].tube.T_start[3]
EVA1.flueGasZone[2].tube.T_start[4]
EVA1.flueGasZone[2].tube.T_start[5]
EVA1.flueGasZone[2].tube.d_start[1]
EVA1.flueGasZone[2].tube.d_start[2]
EVA1.flueGasZone[2].tube.d_start[3]
EVA1.flueGasZone[2].tube.d_start[4]
EVA1.flueGasZone[2].tube.d_start[5]
EVA1.flueGasZone[2].tube.q_start
EVA1.flueGasZone[2].tube.T[1]
EVA1.flueGasZone[2].tube.T[2]
EVA1.flueGasZone[2].tube.T[3]
EVA1.flueGasZone[2].tube.T[4]
EVA1.flueGasZone[2].tube.T[5]
EVA1.flueGasZone[2].tube.d[1]
EVA1.flueGasZone[2].tube.d[2]
EVA1.flueGasZone[2].tube.d[3]
EVA1.flueGasZone[2].tube.d[4]
EVA1.flueGasZone[2].tube.d[5]
EVA1.flueGasZone[2].tube.der(d[1])
EVA1.flueGasZone[2].tube.der(d[2])
EVA1.flueGasZone[2].tube.der(d[3])
EVA1.flueGasZone[2].tube.der(d[4])
EVA1.flueGasZone[2].tube.der(d[5])
EVA1.flueGasZone[2].tube.vol[1]
EVA1.flueGasZone[2].tube.vol[2]
EVA1.flueGasZone[2].tube.vol[3]
EVA1.flueGasZone[2].tube.vol[4]
EVA1.flueGasZone[2].tube.vol[5]
EVA1.flueGasZone[2].tube.cp[1]
EVA1.flueGasZone[2].tube.cp[2]
EVA1.flueGasZone[2].tube.cp[3]
EVA1.flueGasZone[2].tube.cp[4]
EVA1.flueGasZone[2].tube.cp[5]
EVA1.flueGasZone[2].tube.eta[1]
EVA1.flueGasZone[2].tube.eta[2]
EVA1.flueGasZone[2].tube.eta[3]
EVA1.flueGasZone[2].tube.eta[4]
EVA1.flueGasZone[2].tube.eta[5]
EVA1.flueGasZone[2].tube.lambda[1]
EVA1.flueGasZone[2].tube.lambda[2]
EVA1.flueGasZone[2].tube.lambda[3]
EVA1.flueGasZone[2].tube.lambda[4]
EVA1.flueGasZone[2].tube.lambda[5]
EVA1.flueGasZone[2].tube.E_flows[1]
EVA1.flueGasZone[2].tube.E_flows[2]
EVA1.flueGasZone[2].tube.E_flows[3]
EVA1.flueGasZone[2].tube.E_flows[4]
EVA1.flueGasZone[2].tube.E_flows[5]
EVA1.flueGasZone[2].tube.qHeating[1]
EVA1.flueGasZone[2].tube.qHeating[2]
EVA1.flueGasZone[2].tube.qHeating[3]
EVA1.flueGasZone[2].tube.qHeating[4]
EVA1.flueGasZone[2].tube.qHeating[5]
EVA1.flueGasZone[2].tube.useDelayedPressure
EVA1.flueGasZone[2].tube.timeDelayOfPressure
EVA1.flueGasZone[2].tube.hydM
EVA1.flueGasZone[2].tube.hydP
EVA1.flueGasZone[2].tube.friction.geoPipe.Nt
EVA1.flueGasZone[2].tube.friction.geoPipe.L
EVA1.flueGasZone[2].tube.friction.geoPipe.H
EVA1.flueGasZone[2].tube.friction.geoPipe.d_out
EVA1.flueGasZone[2].tube.friction.geoPipe.s
EVA1.flueGasZone[2].tube.friction.geoPipe.r
EVA1.flueGasZone[2].tube.friction.geoPipe.zeta_add
EVA1.flueGasZone[2].tube.friction.geoPipe.isCylindric
EVA1.flueGasZone[2].tube.friction.geoPipe.A
EVA1.flueGasZone[2].tube.friction.dz
EVA1.flueGasZone[2].tube.friction.lambda
EVA1.flueGasZone[2].tube.friction.steamQuality
EVA1.flueGasZone[2].tube.friction.xdo
EVA1.flueGasZone[2].tube.friction.isSinglePhase
EVA1.flueGasZone[2].tube.friction.m_flowLaminar
EVA1.flueGasZone[2].tube.friction.diameterInner
EVA1.flueGasZone[2].tube.friction.A
EVA1.flueGasZone[2].tube.friction.zeta
EVA1.flueGasZone[2].tube.TWall[1]
EVA1.flueGasZone[2].tube.TWall[2]
EVA1.flueGasZone[2].tube.TWall[3]
EVA1.flueGasZone[2].tube.TWall[4]
EVA1.flueGasZone[2].tube.TWall[5]
EVA1.flueGasZone[2].tube.delayInnerHeatTransfer
EVA1.flueGasZone[2].tube.timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[2].tube.useHeatInput
EVA1.flueGasZone[2].tube.initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[2].tube.alpha_start
EVA1.flueGasZone[2].tube.numberOfWallLayers
EVA1.flueGasZone[2].tube.TWall_start[1]
EVA1.flueGasZone[2].tube.TWall_start[2]
EVA1.flueGasZone[2].tube.TWall_start[3]
EVA1.flueGasZone[2].tube.TWall_start[4]
EVA1.flueGasZone[2].tube.TWall_start[5]
EVA1.flueGasZone[2].tube.metal.cp
EVA1.flueGasZone[2].tube.metal.lambda
EVA1.flueGasZone[2].tube.metal.rho
EVA1.flueGasZone[2].tube.stressCoeffofWall.eta
EVA1.flueGasZone[2].tube.stressCoeffofWall.alpha_t
EVA1.flueGasZone[2].tube.stressCoeffofWall.alpha_m
EVA1.flueGasZone[2].tube.stressCoeffofWall.beta
EVA1.flueGasZone[2].tube.stressCoeffofWall.E
EVA1.flueGasZone[2].tube.heatPort[1].Q_flow
EVA1.flueGasZone[2].tube.heatPort[2].Q_flow
EVA1.flueGasZone[2].tube.heatPort[3].Q_flow
EVA1.flueGasZone[2].tube.heatPort[4].Q_flow
EVA1.flueGasZone[2].tube.heatPort[5].Q_flow
EVA1.flueGasZone[2].tube.wall.numberOfNodes
EVA1.flueGasZone[2].tube.wall.numberOfWallLayers
EVA1.flueGasZone[2].tube.wall.assumePlainHeatTransfer
EVA1.flueGasZone[2].tube.wall.metal.cp
EVA1.flueGasZone[2].tube.wall.metal.lambda
EVA1.flueGasZone[2].tube.wall.metal.rho
EVA1.flueGasZone[2].tube.wall.numberOfParallelTubes
EVA1.flueGasZone[2].tube.wall.length
EVA1.flueGasZone[2].tube.wall.diameterInner
EVA1.flueGasZone[2].tube.wall.wallThickness
EVA1.flueGasZone[2].tube.wall.useDynamicEquations
EVA1.flueGasZone[2].tube.wall.considerConductivity
EVA1.flueGasZone[2].tube.wall.considerAxialHeatTransfer
EVA1.flueGasZone[2].tube.wall.T_start[1]
EVA1.flueGasZone[2].tube.wall.T_start[2]
EVA1.flueGasZone[2].tube.wall.T_start[3]
EVA1.flueGasZone[2].tube.wall.T_start[4]
EVA1.flueGasZone[2].tube.wall.T_start[5]
EVA1.flueGasZone[2].tube.wall.layer[1].pi
EVA1.flueGasZone[2].tube.wall.layer[1].numberOfNodes
EVA1.flueGasZone[2].tube.wall.layer[1].assumePlainHeatTransfer
EVA1.flueGasZone[2].tube.wall.layer[1].metal.cp
EVA1.flueGasZone[2].tube.wall.layer[1].metal.lambda
EVA1.flueGasZone[2].tube.wall.layer[1].metal.rho
EVA1.flueGasZone[2].tube.wall.layer[1].numberOfParallelTubes
EVA1.flueGasZone[2].tube.wall.layer[1].length
EVA1.flueGasZone[2].tube.wall.layer[1].diameterInner
EVA1.flueGasZone[2].tube.wall.layer[1].wallThickness
EVA1.flueGasZone[2].tube.wall.layer[1].useDynamicEquations
EVA1.flueGasZone[2].tube.wall.layer[1].considerConductivity
EVA1.flueGasZone[2].tube.wall.layer[1].considerAxialHeatTransfer
EVA1.flueGasZone[2].tube.wall.layer[1].T_start[1]
EVA1.flueGasZone[2].tube.wall.layer[1].T_start[2]
EVA1.flueGasZone[2].tube.wall.layer[1].T_start[3]
EVA1.flueGasZone[2].tube.wall.layer[1].T_start[4]
EVA1.flueGasZone[2].tube.wall.layer[1].T_start[5]
EVA1.flueGasZone[2].tube.wall.layer[1].port_int[1].Q_flow
EVA1.flueGasZone[2].tube.wall.layer[1].port_int[2].Q_flow
EVA1.flueGasZone[2].tube.wall.layer[1].port_int[3].Q_flow
EVA1.flueGasZone[2].tube.wall.layer[1].port_int[4].Q_flow
EVA1.flueGasZone[2].tube.wall.layer[1].port_int[5].Q_flow
EVA1.flueGasZone[2].tube.wall.layer[1].Am
EVA1.flueGasZone[2].tube.wall.layer[1].T[1]
EVA1.flueGasZone[2].tube.wall.layer[1].der(T[1])
EVA1.flueGasZone[2].tube.wall.layer[1].T[2]
EVA1.flueGasZone[2].tube.wall.layer[1].der(T[2])
EVA1.flueGasZone[2].tube.wall.layer[1].T[3]
EVA1.flueGasZone[2].tube.wall.layer[1].der(T[3])
EVA1.flueGasZone[2].tube.wall.layer[1].T[4]
EVA1.flueGasZone[2].tube.wall.layer[1].der(T[4])
EVA1.flueGasZone[2].tube.wall.layer[1].T[5]
EVA1.flueGasZone[2].tube.wall.layer[1].der(T[5])
EVA1.flueGasZone[2].tube.wall.layer[1].rint
EVA1.flueGasZone[2].tube.wall.layer[1].rext
EVA1.flueGasZone[2].tube.wall.layer[1].Tube_mass
EVA1.flueGasZone[2].tube.wall.layer[1].HeatCap
EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[1]
EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[2]
EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[3]
EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[4]
EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[5]
EVA1.flueGasZone[2].tube.wall.stress.eta
EVA1.flueGasZone[2].tube.wall.stress.alpha_t
EVA1.flueGasZone[2].tube.wall.stress.alpha_m
EVA1.flueGasZone[2].tube.wall.stress.beta
EVA1.flueGasZone[2].tube.wall.stress.E
EVA1.flueGasZone[2].tube.wall.dT
EVA1.flueGasZone[2].tube.wall.ft
EVA1.flueGasZone[2].tube.wall.fm
EVA1.flueGasZone[2].tube.wall.tension
EVA1.flueGasZone[2].tube.heatport.numberOfNodes
EVA1.flueGasZone[2].tube.alpha[1]
EVA1.flueGasZone[2].tube.alpha[2]
EVA1.flueGasZone[2].tube.alpha[3]
EVA1.flueGasZone[2].tube.alpha[4]
EVA1.flueGasZone[2].tube.alpha[5]
EVA1.flueGasZone[2].tube.HT[1].geoPipe.Nt
EVA1.flueGasZone[2].tube.HT[1].geoPipe.L
EVA1.flueGasZone[2].tube.HT[1].geoPipe.H
EVA1.flueGasZone[2].tube.HT[1].geoPipe.d_out
EVA1.flueGasZone[2].tube.HT[1].geoPipe.s
EVA1.flueGasZone[2].tube.HT[1].geoPipe.r
EVA1.flueGasZone[2].tube.HT[1].geoPipe.zeta_add
EVA1.flueGasZone[2].tube.HT[1].geoPipe.isCylindric
EVA1.flueGasZone[2].tube.HT[1].geoPipe.A
EVA1.flueGasZone[2].tube.HT[1].diameterInner
EVA1.flueGasZone[2].tube.HT[1].steamQuality
EVA1.flueGasZone[2].tube.HT[1].dT
EVA1.flueGasZone[2].tube.HT[1].xdo
EVA1.flueGasZone[2].tube.HT[1].isSinglePhase
EVA1.flueGasZone[2].tube.HT[1].A
EVA1.flueGasZone[2].tube.HT[2].geoPipe.Nt
EVA1.flueGasZone[2].tube.HT[2].geoPipe.L
EVA1.flueGasZone[2].tube.HT[2].geoPipe.H
EVA1.flueGasZone[2].tube.HT[2].geoPipe.d_out
EVA1.flueGasZone[2].tube.HT[2].geoPipe.s
EVA1.flueGasZone[2].tube.HT[2].geoPipe.r
EVA1.flueGasZone[2].tube.HT[2].geoPipe.zeta_add
EVA1.flueGasZone[2].tube.HT[2].geoPipe.isCylindric
EVA1.flueGasZone[2].tube.HT[2].geoPipe.A
EVA1.flueGasZone[2].tube.HT[2].diameterInner
EVA1.flueGasZone[2].tube.HT[2].steamQuality
EVA1.flueGasZone[2].tube.HT[2].dT
EVA1.flueGasZone[2].tube.HT[2].xdo
EVA1.flueGasZone[2].tube.HT[2].isSinglePhase
EVA1.flueGasZone[2].tube.HT[2].A
EVA1.flueGasZone[2].tube.HT[3].geoPipe.Nt
EVA1.flueGasZone[2].tube.HT[3].geoPipe.L
EVA1.flueGasZone[2].tube.HT[3].geoPipe.H
EVA1.flueGasZone[2].tube.HT[3].geoPipe.d_out
EVA1.flueGasZone[2].tube.HT[3].geoPipe.s
EVA1.flueGasZone[2].tube.HT[3].geoPipe.r
EVA1.flueGasZone[2].tube.HT[3].geoPipe.zeta_add
EVA1.flueGasZone[2].tube.HT[3].geoPipe.isCylindric
EVA1.flueGasZone[2].tube.HT[3].geoPipe.A
EVA1.flueGasZone[2].tube.HT[3].diameterInner
EVA1.flueGasZone[2].tube.HT[3].steamQuality
EVA1.flueGasZone[2].tube.HT[3].dT
EVA1.flueGasZone[2].tube.HT[3].xdo
EVA1.flueGasZone[2].tube.HT[3].isSinglePhase
EVA1.flueGasZone[2].tube.HT[3].A
EVA1.flueGasZone[2].tube.HT[4].geoPipe.Nt
EVA1.flueGasZone[2].tube.HT[4].geoPipe.L
EVA1.flueGasZone[2].tube.HT[4].geoPipe.H
EVA1.flueGasZone[2].tube.HT[4].geoPipe.d_out
EVA1.flueGasZone[2].tube.HT[4].geoPipe.s
EVA1.flueGasZone[2].tube.HT[4].geoPipe.r
EVA1.flueGasZone[2].tube.HT[4].geoPipe.zeta_add
EVA1.flueGasZone[2].tube.HT[4].geoPipe.isCylindric
EVA1.flueGasZone[2].tube.HT[4].geoPipe.A
EVA1.flueGasZone[2].tube.HT[4].diameterInner
EVA1.flueGasZone[2].tube.HT[4].steamQuality
EVA1.flueGasZone[2].tube.HT[4].dT
EVA1.flueGasZone[2].tube.HT[4].xdo
EVA1.flueGasZone[2].tube.HT[4].isSinglePhase
EVA1.flueGasZone[2].tube.HT[4].A
EVA1.flueGasZone[2].tube.HT[5].geoPipe.Nt
EVA1.flueGasZone[2].tube.HT[5].geoPipe.L
EVA1.flueGasZone[2].tube.HT[5].geoPipe.H
EVA1.flueGasZone[2].tube.HT[5].geoPipe.d_out
EVA1.flueGasZone[2].tube.HT[5].geoPipe.s
EVA1.flueGasZone[2].tube.HT[5].geoPipe.r
EVA1.flueGasZone[2].tube.HT[5].geoPipe.zeta_add
EVA1.flueGasZone[2].tube.HT[5].geoPipe.isCylindric
EVA1.flueGasZone[2].tube.HT[5].geoPipe.A
EVA1.flueGasZone[2].tube.HT[5].diameterInner
EVA1.flueGasZone[2].tube.HT[5].steamQuality
EVA1.flueGasZone[2].tube.HT[5].dT
EVA1.flueGasZone[2].tube.HT[5].xdo
EVA1.flueGasZone[2].tube.HT[5].isSinglePhase
EVA1.flueGasZone[2].tube.HT[5].A
EVA1.flueGasZone[2].heatTransfer.numberOfNodes
EVA1.flueGasZone[2].heatTransfer.lengthRe
EVA1.flueGasZone[2].heatTransfer.lengthNu
EVA1.flueGasZone[2].heatTransfer.ACrossFlow
EVA1.flueGasZone[2].heatTransfer.AHeatTransfer
EVA1.flueGasZone[2].heatTransfer.geoFGZ.pt
EVA1.flueGasZone[2].heatTransfer.geoFGZ.pl
EVA1.flueGasZone[2].heatTransfer.geoFGZ.Lw
EVA1.flueGasZone[2].heatTransfer.geoFGZ.Ld
EVA1.flueGasZone[2].heatTransfer.geoFGZ.Lh
EVA1.flueGasZone[2].heatTransfer.geoFGZ.Nr
EVA1.flueGasZone[2].heatTransfer.geoFGZ.staggered
EVA1.flueGasZone[2].heatTransfer.geoFins.finned
EVA1.flueGasZone[2].heatTransfer.geoFins.serrated
EVA1.flueGasZone[2].heatTransfer.geoFins.h
EVA1.flueGasZone[2].heatTransfer.geoFins.s
EVA1.flueGasZone[2].heatTransfer.geoFins.b
EVA1.flueGasZone[2].heatTransfer.geoFins.w
EVA1.flueGasZone[2].heatTransfer.geoFins.n
EVA1.flueGasZone[2].heatTransfer.geoPipe.Nt
EVA1.flueGasZone[2].heatTransfer.geoPipe.L
EVA1.flueGasZone[2].heatTransfer.geoPipe.H
EVA1.flueGasZone[2].heatTransfer.geoPipe.d_out
EVA1.flueGasZone[2].heatTransfer.geoPipe.s
EVA1.flueGasZone[2].heatTransfer.geoPipe.r
EVA1.flueGasZone[2].heatTransfer.geoPipe.zeta_add
EVA1.flueGasZone[2].heatTransfer.geoPipe.isCylindric
EVA1.flueGasZone[2].heatTransfer.geoPipe.A
EVA1.flueGasZone[2].heatTransfer.alpha_start
EVA1.flueGasZone[2].heatTransfer.state.p
EVA1.flueGasZone[2].heatTransfer.state.T
EVA1.flueGasZone[2].heatTransfer.state.X[1]
EVA1.flueGasZone[2].heatTransfer.state.X[2]
EVA1.flueGasZone[2].heatTransfer.state.X[3]
EVA1.flueGasZone[2].heatTransfer.state.X[4]
EVA1.flueGasZone[2].heatTransfer.state.X[5]
EVA1.flueGasZone[2].heatTransfer.state.X[6]
EVA1.flueGasZone[2].heatTransfer.Re
EVA1.flueGasZone[2].heatTransfer.Pr
EVA1.flueGasZone[2].heatTransfer.Nu[1]
EVA1.flueGasZone[2].heatTransfer.Nu[2]
EVA1.flueGasZone[2].heatTransfer.Nu[3]
EVA1.flueGasZone[2].heatTransfer.Nu[4]
EVA1.flueGasZone[2].heatTransfer.Nu[5]
EVA1.flueGasZone[2].heatTransfer.cp
EVA1.flueGasZone[2].heatTransfer.eta
EVA1.flueGasZone[2].heatTransfer.lambda
EVA1.flueGasZone[2].heatTransfer.Psi
EVA1.flueGasZone[2].heatTransfer.heatingSurfaceFactor_set
EVA1.flueGasZone[2].mediumGasOut.h
EVA1.flueGasZone[2].mediumGasOut.der(h)
EVA1.flueGasZone[2].mediumGasOut.d
EVA1.flueGasZone[2].mediumGasOut.X[1]
EVA1.flueGasZone[2].mediumGasOut.X[2]
EVA1.flueGasZone[2].mediumGasOut.X[3]
EVA1.flueGasZone[2].mediumGasOut.X[4]
EVA1.flueGasZone[2].mediumGasOut.X[5]
EVA1.flueGasZone[2].mediumGasOut.X[6]
EVA1.flueGasZone[2].mediumGasOut.u
EVA1.flueGasZone[2].mediumGasOut.R
EVA1.flueGasZone[2].mediumGasOut.MM
EVA1.flueGasZone[2].mediumGasOut.state.p
EVA1.flueGasZone[2].mediumGasOut.state.T
EVA1.flueGasZone[2].mediumGasOut.state.X[1]
EVA1.flueGasZone[2].mediumGasOut.state.X[2]
EVA1.flueGasZone[2].mediumGasOut.state.X[3]
EVA1.flueGasZone[2].mediumGasOut.state.X[4]
EVA1.flueGasZone[2].mediumGasOut.state.X[5]
EVA1.flueGasZone[2].mediumGasOut.state.X[6]
EVA1.flueGasZone[2].mediumGasOut.preferredMediumStates
EVA1.flueGasZone[2].mediumGasOut.standardOrderComponents
EVA1.flueGasZone[2].mediumGasOut.T_degC
EVA1.flueGasZone[2].mediumGasOut.p_bar
EVA1.flueGasZone[2].mediumGas.h
EVA1.flueGasZone[2].mediumGas.d
EVA1.flueGasZone[2].mediumGas.X[1]
EVA1.flueGasZone[2].mediumGas.X[2]
EVA1.flueGasZone[2].mediumGas.X[3]
EVA1.flueGasZone[2].mediumGas.X[4]
EVA1.flueGasZone[2].mediumGas.X[5]
EVA1.flueGasZone[2].mediumGas.X[6]
EVA1.flueGasZone[2].mediumGas.u
EVA1.flueGasZone[2].mediumGas.R
EVA1.flueGasZone[2].mediumGas.MM
EVA1.flueGasZone[2].mediumGas.state.p
EVA1.flueGasZone[2].mediumGas.state.T
EVA1.flueGasZone[2].mediumGas.state.X[1]
EVA1.flueGasZone[2].mediumGas.state.X[2]
EVA1.flueGasZone[2].mediumGas.state.X[3]
EVA1.flueGasZone[2].mediumGas.state.X[4]
EVA1.flueGasZone[2].mediumGas.state.X[5]
EVA1.flueGasZone[2].mediumGas.state.X[6]
EVA1.flueGasZone[2].mediumGas.preferredMediumStates
EVA1.flueGasZone[2].mediumGas.standardOrderComponents
EVA1.flueGasZone[2].mediumGas.T_degC
EVA1.flueGasZone[2].mediumGas.p_bar
EVA1.flueGasZone[2].mediumGasIn.d
EVA1.flueGasZone[2].mediumGasIn.X[1]
EVA1.flueGasZone[2].mediumGasIn.X[2]
EVA1.flueGasZone[2].mediumGasIn.X[3]
EVA1.flueGasZone[2].mediumGasIn.X[4]
EVA1.flueGasZone[2].mediumGasIn.X[5]
EVA1.flueGasZone[2].mediumGasIn.X[6]
EVA1.flueGasZone[2].mediumGasIn.u
EVA1.flueGasZone[2].mediumGasIn.R
EVA1.flueGasZone[2].mediumGasIn.MM
EVA1.flueGasZone[2].mediumGasIn.state.p
EVA1.flueGasZone[2].mediumGasIn.state.T
EVA1.flueGasZone[2].mediumGasIn.state.X[1]
EVA1.flueGasZone[2].mediumGasIn.state.X[2]
EVA1.flueGasZone[2].mediumGasIn.state.X[3]
EVA1.flueGasZone[2].mediumGasIn.state.X[4]
EVA1.flueGasZone[2].mediumGasIn.state.X[5]
EVA1.flueGasZone[2].mediumGasIn.state.X[6]
EVA1.flueGasZone[2].mediumGasIn.preferredMediumStates
EVA1.flueGasZone[2].mediumGasIn.standardOrderComponents
EVA1.flueGasZone[2].mediumGasIn.T_degC
EVA1.flueGasZone[2].mediumGasIn.p_bar
EVA1.flueGasZone[2].state_gas.X[1]
EVA1.flueGasZone[2].state_gas.X[2]
EVA1.flueGasZone[2].state_gas.X[3]
EVA1.flueGasZone[2].state_gas.X[4]
EVA1.flueGasZone[2].state_gas.X[5]
EVA1.flueGasZone[2].state_gas.X[6]
EVA1.flueGasZone[2].V_gas
EVA1.flueGasZone[2].deltaT[1]
EVA1.flueGasZone[2].deltaT[2]
EVA1.flueGasZone[2].deltaT[3]
EVA1.flueGasZone[2].deltaT[4]
EVA1.flueGasZone[2].deltaT[5]
EVA1.flueGasZone[2].T_start[1]
EVA1.flueGasZone[2].T_start[2]
EVA1.flueGasZone[2].T_start[3]
EVA1.flueGasZone[2].T_start[4]
EVA1.flueGasZone[2].T_start[5]
EVA1.flueGasZone[2].lengthCharacteristicRe
EVA1.flueGasZone[2].Ah
EVA1.flueGasZone[2].temperatureRate[1]
EVA1.flueGasZone[2].temperatureRate[2]
EVA1.flueGasZone[2].temperatureRate[3]
EVA1.flueGasZone[2].temperatureRate[4]
EVA1.flueGasZone[2].temperatureRate[5]
EVA1.flueGasZone[2].fins.pi
EVA1.flueGasZone[2].fins.numberOfNodes
EVA1.flueGasZone[2].fins.geoFins.finned
EVA1.flueGasZone[2].fins.geoFins.serrated
EVA1.flueGasZone[2].fins.geoFins.h
EVA1.flueGasZone[2].fins.geoFins.s
EVA1.flueGasZone[2].fins.geoFins.b
EVA1.flueGasZone[2].fins.geoFins.w
EVA1.flueGasZone[2].fins.geoFins.n
EVA1.flueGasZone[2].fins.geoPipe.Nt
EVA1.flueGasZone[2].fins.geoPipe.L
EVA1.flueGasZone[2].fins.geoPipe.H
EVA1.flueGasZone[2].fins.geoPipe.d_out
EVA1.flueGasZone[2].fins.geoPipe.s
EVA1.flueGasZone[2].fins.geoPipe.r
EVA1.flueGasZone[2].fins.geoPipe.zeta_add
EVA1.flueGasZone[2].fins.geoPipe.isCylindric
EVA1.flueGasZone[2].fins.geoPipe.A
EVA1.flueGasZone[2].fins.metal.cp
EVA1.flueGasZone[2].fins.metal.lambda
EVA1.flueGasZone[2].fins.metal.rho
EVA1.flueGasZone[2].fins.T_start[1]
EVA1.flueGasZone[2].fins.T_start[2]
EVA1.flueGasZone[2].fins.T_start[3]
EVA1.flueGasZone[2].fins.T_start[4]
EVA1.flueGasZone[2].fins.T_start[5]
EVA1.flueGasZone[2].fins.useDynamicEquations
EVA1.flueGasZone[2].fins.T[1]
EVA1.flueGasZone[2].fins.der(T[1])
EVA1.flueGasZone[2].fins.T[2]
EVA1.flueGasZone[2].fins.der(T[2])
EVA1.flueGasZone[2].fins.T[3]
EVA1.flueGasZone[2].fins.der(T[3])
EVA1.flueGasZone[2].fins.T[4]
EVA1.flueGasZone[2].fins.der(T[4])
EVA1.flueGasZone[2].fins.T[5]
EVA1.flueGasZone[2].fins.der(T[5])
EVA1.flueGasZone[2].fins.V
EVA1.flueGasZone[2].fins.M
EVA1.flueGasZone[2].fins.Cp
EVA1.flueGasZone[2].heatPortToGas.numberOfNodes
EVA1.flueGasZone[2].heatPortToGas.Q_flow[1]
EVA1.flueGasZone[2].heatPortToGas.Q_flow[2]
EVA1.flueGasZone[2].heatPortToGas.Q_flow[3]
EVA1.flueGasZone[2].heatPortToGas.Q_flow[4]
EVA1.flueGasZone[2].heatPortToGas.Q_flow[5]
EVA1.flueGasZone[3].pi
EVA1.flueGasZone[3].numberOfTubeNodes
EVA1.flueGasZone[3].numberOfWallLayers
EVA1.flueGasZone[3].hydraulicResistance_gas
EVA1.flueGasZone[3].delayInnerHeatTransfer
EVA1.flueGasZone[3].timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[3].m_flow_start
EVA1.flueGasZone[3].pIn_start
EVA1.flueGasZone[3].pOut_start
EVA1.flueGasZone[3].hIn_start
EVA1.flueGasZone[3].hOut_start
EVA1.flueGasZone[3].pGas_start
EVA1.flueGasZone[3].TGasIn_start
EVA1.flueGasZone[3].TGasOut_start
EVA1.flueGasZone[3].m_flowGas_start
EVA1.flueGasZone[3].initializeInletPressure
EVA1.flueGasZone[3].initializeSteadyStateEnthalpies
EVA1.flueGasZone[3].initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[3].useHeatInput
EVA1.flueGasZone[3].initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[3].TWall_start[1]
EVA1.flueGasZone[3].TWall_start[2]
EVA1.flueGasZone[3].TWall_start[3]
EVA1.flueGasZone[3].TWall_start[4]
EVA1.flueGasZone[3].TWall_start[5]
EVA1.flueGasZone[3].geoFGZ.pt
EVA1.flueGasZone[3].geoFGZ.pl
EVA1.flueGasZone[3].geoFGZ.Lw
EVA1.flueGasZone[3].geoFGZ.Ld
EVA1.flueGasZone[3].geoFGZ.Lh
EVA1.flueGasZone[3].geoFGZ.Nr
EVA1.flueGasZone[3].geoFGZ.staggered
EVA1.flueGasZone[3].geoFins.finned
EVA1.flueGasZone[3].geoFins.serrated
EVA1.flueGasZone[3].geoFins.h
EVA1.flueGasZone[3].geoFins.s
EVA1.flueGasZone[3].geoFins.b
EVA1.flueGasZone[3].geoFins.w
EVA1.flueGasZone[3].geoFins.n
EVA1.flueGasZone[3].geoPipe.Nt
EVA1.flueGasZone[3].geoPipe.L
EVA1.flueGasZone[3].geoPipe.H
EVA1.flueGasZone[3].geoPipe.d_out
EVA1.flueGasZone[3].geoPipe.s
EVA1.flueGasZone[3].geoPipe.r
EVA1.flueGasZone[3].geoPipe.zeta_add
EVA1.flueGasZone[3].geoPipe.isCylindric
EVA1.flueGasZone[3].geoPipe.A
EVA1.flueGasZone[3].metal.cp
EVA1.flueGasZone[3].metal.lambda
EVA1.flueGasZone[3].metal.rho
EVA1.flueGasZone[3].cleanliness
EVA1.flueGasZone[3].computeHeatLossInPercent
EVA1.flueGasZone[3].heatloss
EVA1.flueGasZone[3].kLossToAmbient
EVA1.flueGasZone[3].T_ambient
EVA1.flueGasZone[3].Q_flowToAmbient[1]
EVA1.flueGasZone[3].Q_flowToAmbient[2]
EVA1.flueGasZone[3].Q_flowToAmbient[3]
EVA1.flueGasZone[3].Q_flowToAmbient[4]
EVA1.flueGasZone[3].Q_flowToAmbient[5]
EVA1.flueGasZone[3].tube.hIn
EVA1.flueGasZone[3].tube.hOut
EVA1.flueGasZone[3].tube.preferredStates
EVA1.flueGasZone[3].tube.m_flow_start
EVA1.flueGasZone[3].tube.pIn_start
EVA1.flueGasZone[3].tube.pOut_start
EVA1.flueGasZone[3].tube.useTemperatureStartValue
EVA1.flueGasZone[3].tube.hIn_start
EVA1.flueGasZone[3].tube.hOut_start
EVA1.flueGasZone[3].tube.TIn_start
EVA1.flueGasZone[3].tube.TOut_start
EVA1.flueGasZone[3].tube.XIn_start[1]
EVA1.flueGasZone[3].tube.XOut_start[1]
EVA1.flueGasZone[3].tube.useSubstanceStorage
EVA1.flueGasZone[3].tube.useEnergyStorage
EVA1.flueGasZone[3].tube.dp
EVA1.flueGasZone[3].tube.state_from_a.phase
EVA1.flueGasZone[3].tube.state_from_a.h
EVA1.flueGasZone[3].tube.state_from_a.d
EVA1.flueGasZone[3].tube.state_from_a.T
EVA1.flueGasZone[3].tube.state_from_b.phase
EVA1.flueGasZone[3].tube.state_from_b.h
EVA1.flueGasZone[3].tube.state_from_b.d
EVA1.flueGasZone[3].tube.state_from_b.T
EVA1.flueGasZone[3].tube.g
EVA1.flueGasZone[3].tube.pi
EVA1.flueGasZone[3].tube.numberOfNodes
EVA1.flueGasZone[3].tube.geoPipe.Nt
EVA1.flueGasZone[3].tube.geoPipe.L
EVA1.flueGasZone[3].tube.geoPipe.H
EVA1.flueGasZone[3].tube.geoPipe.d_out
EVA1.flueGasZone[3].tube.geoPipe.s
EVA1.flueGasZone[3].tube.geoPipe.r
EVA1.flueGasZone[3].tube.geoPipe.zeta_add
EVA1.flueGasZone[3].tube.geoPipe.isCylindric
EVA1.flueGasZone[3].tube.geoPipe.A
EVA1.flueGasZone[3].tube.initializeInletPressure
EVA1.flueGasZone[3].tube.initializeSteadyStateEnthalpies
EVA1.flueGasZone[3].tube.initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[3].tube.h_start[1]
EVA1.flueGasZone[3].tube.h_start[2]
EVA1.flueGasZone[3].tube.h_start[3]
EVA1.flueGasZone[3].tube.h_start[4]
EVA1.flueGasZone[3].tube.h_start[5]
EVA1.flueGasZone[3].tube.Q_flow_start[1]
EVA1.flueGasZone[3].tube.Q_flow_start[2]
EVA1.flueGasZone[3].tube.Q_flow_start[3]
EVA1.flueGasZone[3].tube.Q_flow_start[4]
EVA1.flueGasZone[3].tube.Q_flow_start[5]
EVA1.flueGasZone[3].tube.additionalVolume
EVA1.flueGasZone[3].tube.useDynamicMassBalance
EVA1.flueGasZone[3].tube.considerDynamicMomentum
EVA1.flueGasZone[3].tube.considerDynamicPressure
EVA1.flueGasZone[3].tube.heatedArea
EVA1.flueGasZone[3].tube.diameterInner
EVA1.flueGasZone[3].tube.dz
EVA1.flueGasZone[3].tube.V
EVA1.flueGasZone[3].tube.A
EVA1.flueGasZone[3].tube.VTotal
EVA1.flueGasZone[3].tube.VCell
EVA1.flueGasZone[3].tube.sinphi
EVA1.flueGasZone[3].tube.fluid[1].h
EVA1.flueGasZone[3].tube.fluid[1].der(h)
EVA1.flueGasZone[3].tube.fluid[1].X[1]
EVA1.flueGasZone[3].tube.fluid[1].u
EVA1.flueGasZone[3].tube.fluid[1].R
EVA1.flueGasZone[3].tube.fluid[1].MM
EVA1.flueGasZone[3].tube.fluid[1].preferredMediumStates
EVA1.flueGasZone[3].tube.fluid[1].standardOrderComponents
EVA1.flueGasZone[3].tube.fluid[1].T_degC
EVA1.flueGasZone[3].tube.fluid[1].p_bar
EVA1.flueGasZone[3].tube.fluid[1].sat.Tsat
EVA1.flueGasZone[3].tube.fluid[1].phase
EVA1.flueGasZone[3].tube.fluid[2].p
EVA1.flueGasZone[3].tube.fluid[2].der(p)
EVA1.flueGasZone[3].tube.fluid[2].h
EVA1.flueGasZone[3].tube.fluid[2].der(h)
EVA1.flueGasZone[3].tube.fluid[2].X[1]
EVA1.flueGasZone[3].tube.fluid[2].u
EVA1.flueGasZone[3].tube.fluid[2].R
EVA1.flueGasZone[3].tube.fluid[2].MM
EVA1.flueGasZone[3].tube.fluid[2].preferredMediumStates
EVA1.flueGasZone[3].tube.fluid[2].standardOrderComponents
EVA1.flueGasZone[3].tube.fluid[2].T_degC
EVA1.flueGasZone[3].tube.fluid[2].p_bar
EVA1.flueGasZone[3].tube.fluid[2].sat.Tsat
EVA1.flueGasZone[3].tube.fluid[2].phase
EVA1.flueGasZone[3].tube.fluid[3].h
EVA1.flueGasZone[3].tube.fluid[3].der(h)
EVA1.flueGasZone[3].tube.fluid[3].X[1]
EVA1.flueGasZone[3].tube.fluid[3].u
EVA1.flueGasZone[3].tube.fluid[3].R
EVA1.flueGasZone[3].tube.fluid[3].MM
EVA1.flueGasZone[3].tube.fluid[3].preferredMediumStates
EVA1.flueGasZone[3].tube.fluid[3].standardOrderComponents
EVA1.flueGasZone[3].tube.fluid[3].T_degC
EVA1.flueGasZone[3].tube.fluid[3].p_bar
EVA1.flueGasZone[3].tube.fluid[3].sat.Tsat
EVA1.flueGasZone[3].tube.fluid[3].phase
EVA1.flueGasZone[3].tube.fluid[4].h
EVA1.flueGasZone[3].tube.fluid[4].der(h)
EVA1.flueGasZone[3].tube.fluid[4].X[1]
EVA1.flueGasZone[3].tube.fluid[4].u
EVA1.flueGasZone[3].tube.fluid[4].R
EVA1.flueGasZone[3].tube.fluid[4].MM
EVA1.flueGasZone[3].tube.fluid[4].preferredMediumStates
EVA1.flueGasZone[3].tube.fluid[4].standardOrderComponents
EVA1.flueGasZone[3].tube.fluid[4].T_degC
EVA1.flueGasZone[3].tube.fluid[4].p_bar
EVA1.flueGasZone[3].tube.fluid[4].sat.Tsat
EVA1.flueGasZone[3].tube.fluid[4].phase
EVA1.flueGasZone[3].tube.fluid[5].h
EVA1.flueGasZone[3].tube.fluid[5].der(h)
EVA1.flueGasZone[3].tube.fluid[5].X[1]
EVA1.flueGasZone[3].tube.fluid[5].u
EVA1.flueGasZone[3].tube.fluid[5].R
EVA1.flueGasZone[3].tube.fluid[5].MM
EVA1.flueGasZone[3].tube.fluid[5].preferredMediumStates
EVA1.flueGasZone[3].tube.fluid[5].standardOrderComponents
EVA1.flueGasZone[3].tube.fluid[5].T_degC
EVA1.flueGasZone[3].tube.fluid[5].p_bar
EVA1.flueGasZone[3].tube.fluid[5].sat.Tsat
EVA1.flueGasZone[3].tube.fluid[5].phase
EVA1.flueGasZone[3].tube.m_flows[1]
EVA1.flueGasZone[3].tube.der(m_flows[1])
EVA1.flueGasZone[3].tube.d_av
EVA1.flueGasZone[3].tube.der(d_av)
EVA1.flueGasZone[3].tube.vol_av
EVA1.flueGasZone[3].tube.dpfric
EVA1.flueGasZone[3].tube.dphyd
EVA1.flueGasZone[3].tube.dpHyd_start
EVA1.flueGasZone[3].tube.dpFric_start
EVA1.flueGasZone[3].tube.T_start[1]
EVA1.flueGasZone[3].tube.T_start[2]
EVA1.flueGasZone[3].tube.T_start[3]
EVA1.flueGasZone[3].tube.T_start[4]
EVA1.flueGasZone[3].tube.T_start[5]
EVA1.flueGasZone[3].tube.d_start[1]
EVA1.flueGasZone[3].tube.d_start[2]
EVA1.flueGasZone[3].tube.d_start[3]
EVA1.flueGasZone[3].tube.d_start[4]
EVA1.flueGasZone[3].tube.d_start[5]
EVA1.flueGasZone[3].tube.q_start
EVA1.flueGasZone[3].tube.T[1]
EVA1.flueGasZone[3].tube.T[2]
EVA1.flueGasZone[3].tube.T[3]
EVA1.flueGasZone[3].tube.T[4]
EVA1.flueGasZone[3].tube.T[5]
EVA1.flueGasZone[3].tube.d[1]
EVA1.flueGasZone[3].tube.d[2]
EVA1.flueGasZone[3].tube.d[3]
EVA1.flueGasZone[3].tube.d[4]
EVA1.flueGasZone[3].tube.d[5]
EVA1.flueGasZone[3].tube.der(d[1])
EVA1.flueGasZone[3].tube.der(d[2])
EVA1.flueGasZone[3].tube.der(d[3])
EVA1.flueGasZone[3].tube.der(d[4])
EVA1.flueGasZone[3].tube.der(d[5])
EVA1.flueGasZone[3].tube.vol[1]
EVA1.flueGasZone[3].tube.vol[2]
EVA1.flueGasZone[3].tube.vol[3]
EVA1.flueGasZone[3].tube.vol[4]
EVA1.flueGasZone[3].tube.vol[5]
EVA1.flueGasZone[3].tube.cp[1]
EVA1.flueGasZone[3].tube.cp[2]
EVA1.flueGasZone[3].tube.cp[3]
EVA1.flueGasZone[3].tube.cp[4]
EVA1.flueGasZone[3].tube.cp[5]
EVA1.flueGasZone[3].tube.eta[1]
EVA1.flueGasZone[3].tube.eta[2]
EVA1.flueGasZone[3].tube.eta[3]
EVA1.flueGasZone[3].tube.eta[4]
EVA1.flueGasZone[3].tube.eta[5]
EVA1.flueGasZone[3].tube.lambda[1]
EVA1.flueGasZone[3].tube.lambda[2]
EVA1.flueGasZone[3].tube.lambda[3]
EVA1.flueGasZone[3].tube.lambda[4]
EVA1.flueGasZone[3].tube.lambda[5]
EVA1.flueGasZone[3].tube.E_flows[1]
EVA1.flueGasZone[3].tube.E_flows[2]
EVA1.flueGasZone[3].tube.E_flows[3]
EVA1.flueGasZone[3].tube.E_flows[4]
EVA1.flueGasZone[3].tube.E_flows[5]
EVA1.flueGasZone[3].tube.qHeating[1]
EVA1.flueGasZone[3].tube.qHeating[2]
EVA1.flueGasZone[3].tube.qHeating[3]
EVA1.flueGasZone[3].tube.qHeating[4]
EVA1.flueGasZone[3].tube.qHeating[5]
EVA1.flueGasZone[3].tube.useDelayedPressure
EVA1.flueGasZone[3].tube.timeDelayOfPressure
EVA1.flueGasZone[3].tube.hydM
EVA1.flueGasZone[3].tube.hydP
EVA1.flueGasZone[3].tube.friction.geoPipe.Nt
EVA1.flueGasZone[3].tube.friction.geoPipe.L
EVA1.flueGasZone[3].tube.friction.geoPipe.H
EVA1.flueGasZone[3].tube.friction.geoPipe.d_out
EVA1.flueGasZone[3].tube.friction.geoPipe.s
EVA1.flueGasZone[3].tube.friction.geoPipe.r
EVA1.flueGasZone[3].tube.friction.geoPipe.zeta_add
EVA1.flueGasZone[3].tube.friction.geoPipe.isCylindric
EVA1.flueGasZone[3].tube.friction.geoPipe.A
EVA1.flueGasZone[3].tube.friction.dz
EVA1.flueGasZone[3].tube.friction.lambda
EVA1.flueGasZone[3].tube.friction.steamQuality
EVA1.flueGasZone[3].tube.friction.xdo
EVA1.flueGasZone[3].tube.friction.isSinglePhase
EVA1.flueGasZone[3].tube.friction.m_flowLaminar
EVA1.flueGasZone[3].tube.friction.diameterInner
EVA1.flueGasZone[3].tube.friction.A
EVA1.flueGasZone[3].tube.friction.zeta
EVA1.flueGasZone[3].tube.TWall[1]
EVA1.flueGasZone[3].tube.TWall[2]
EVA1.flueGasZone[3].tube.TWall[3]
EVA1.flueGasZone[3].tube.TWall[4]
EVA1.flueGasZone[3].tube.TWall[5]
EVA1.flueGasZone[3].tube.delayInnerHeatTransfer
EVA1.flueGasZone[3].tube.timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[3].tube.useHeatInput
EVA1.flueGasZone[3].tube.initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[3].tube.alpha_start
EVA1.flueGasZone[3].tube.numberOfWallLayers
EVA1.flueGasZone[3].tube.TWall_start[1]
EVA1.flueGasZone[3].tube.TWall_start[2]
EVA1.flueGasZone[3].tube.TWall_start[3]
EVA1.flueGasZone[3].tube.TWall_start[4]
EVA1.flueGasZone[3].tube.TWall_start[5]
EVA1.flueGasZone[3].tube.metal.cp
EVA1.flueGasZone[3].tube.metal.lambda
EVA1.flueGasZone[3].tube.metal.rho
EVA1.flueGasZone[3].tube.stressCoeffofWall.eta
EVA1.flueGasZone[3].tube.stressCoeffofWall.alpha_t
EVA1.flueGasZone[3].tube.stressCoeffofWall.alpha_m
EVA1.flueGasZone[3].tube.stressCoeffofWall.beta
EVA1.flueGasZone[3].tube.stressCoeffofWall.E
EVA1.flueGasZone[3].tube.heatPort[1].Q_flow
EVA1.flueGasZone[3].tube.heatPort[2].Q_flow
EVA1.flueGasZone[3].tube.heatPort[3].Q_flow
EVA1.flueGasZone[3].tube.heatPort[4].Q_flow
EVA1.flueGasZone[3].tube.heatPort[5].Q_flow
EVA1.flueGasZone[3].tube.wall.numberOfNodes
EVA1.flueGasZone[3].tube.wall.numberOfWallLayers
EVA1.flueGasZone[3].tube.wall.assumePlainHeatTransfer
EVA1.flueGasZone[3].tube.wall.metal.cp
EVA1.flueGasZone[3].tube.wall.metal.lambda
EVA1.flueGasZone[3].tube.wall.metal.rho
EVA1.flueGasZone[3].tube.wall.numberOfParallelTubes
EVA1.flueGasZone[3].tube.wall.length
EVA1.flueGasZone[3].tube.wall.diameterInner
EVA1.flueGasZone[3].tube.wall.wallThickness
EVA1.flueGasZone[3].tube.wall.useDynamicEquations
EVA1.flueGasZone[3].tube.wall.considerConductivity
EVA1.flueGasZone[3].tube.wall.considerAxialHeatTransfer
EVA1.flueGasZone[3].tube.wall.T_start[1]
EVA1.flueGasZone[3].tube.wall.T_start[2]
EVA1.flueGasZone[3].tube.wall.T_start[3]
EVA1.flueGasZone[3].tube.wall.T_start[4]
EVA1.flueGasZone[3].tube.wall.T_start[5]
EVA1.flueGasZone[3].tube.wall.layer[1].pi
EVA1.flueGasZone[3].tube.wall.layer[1].numberOfNodes
EVA1.flueGasZone[3].tube.wall.layer[1].assumePlainHeatTransfer
EVA1.flueGasZone[3].tube.wall.layer[1].metal.cp
EVA1.flueGasZone[3].tube.wall.layer[1].metal.lambda
EVA1.flueGasZone[3].tube.wall.layer[1].metal.rho
EVA1.flueGasZone[3].tube.wall.layer[1].numberOfParallelTubes
EVA1.flueGasZone[3].tube.wall.layer[1].length
EVA1.flueGasZone[3].tube.wall.layer[1].diameterInner
EVA1.flueGasZone[3].tube.wall.layer[1].wallThickness
EVA1.flueGasZone[3].tube.wall.layer[1].useDynamicEquations
EVA1.flueGasZone[3].tube.wall.layer[1].considerConductivity
EVA1.flueGasZone[3].tube.wall.layer[1].considerAxialHeatTransfer
EVA1.flueGasZone[3].tube.wall.layer[1].T_start[1]
EVA1.flueGasZone[3].tube.wall.layer[1].T_start[2]
EVA1.flueGasZone[3].tube.wall.layer[1].T_start[3]
EVA1.flueGasZone[3].tube.wall.layer[1].T_start[4]
EVA1.flueGasZone[3].tube.wall.layer[1].T_start[5]
EVA1.flueGasZone[3].tube.wall.layer[1].port_int[1].Q_flow
EVA1.flueGasZone[3].tube.wall.layer[1].port_int[2].Q_flow
EVA1.flueGasZone[3].tube.wall.layer[1].port_int[3].Q_flow
EVA1.flueGasZone[3].tube.wall.layer[1].port_int[4].Q_flow
EVA1.flueGasZone[3].tube.wall.layer[1].port_int[5].Q_flow
EVA1.flueGasZone[3].tube.wall.layer[1].Am
EVA1.flueGasZone[3].tube.wall.layer[1].T[1]
EVA1.flueGasZone[3].tube.wall.layer[1].der(T[1])
EVA1.flueGasZone[3].tube.wall.layer[1].T[2]
EVA1.flueGasZone[3].tube.wall.layer[1].der(T[2])
EVA1.flueGasZone[3].tube.wall.layer[1].T[3]
EVA1.flueGasZone[3].tube.wall.layer[1].der(T[3])
EVA1.flueGasZone[3].tube.wall.layer[1].T[4]
EVA1.flueGasZone[3].tube.wall.layer[1].der(T[4])
EVA1.flueGasZone[3].tube.wall.layer[1].T[5]
EVA1.flueGasZone[3].tube.wall.layer[1].der(T[5])
EVA1.flueGasZone[3].tube.wall.layer[1].rint
EVA1.flueGasZone[3].tube.wall.layer[1].rext
EVA1.flueGasZone[3].tube.wall.layer[1].Tube_mass
EVA1.flueGasZone[3].tube.wall.layer[1].HeatCap
EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[1]
EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[2]
EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[3]
EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[4]
EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[5]
EVA1.flueGasZone[3].tube.wall.stress.eta
EVA1.flueGasZone[3].tube.wall.stress.alpha_t
EVA1.flueGasZone[3].tube.wall.stress.alpha_m
EVA1.flueGasZone[3].tube.wall.stress.beta
EVA1.flueGasZone[3].tube.wall.stress.E
EVA1.flueGasZone[3].tube.wall.dT
EVA1.flueGasZone[3].tube.wall.ft
EVA1.flueGasZone[3].tube.wall.fm
EVA1.flueGasZone[3].tube.wall.tension
EVA1.flueGasZone[3].tube.heatport.numberOfNodes
EVA1.flueGasZone[3].tube.alpha[1]
EVA1.flueGasZone[3].tube.alpha[2]
EVA1.flueGasZone[3].tube.alpha[3]
EVA1.flueGasZone[3].tube.alpha[4]
EVA1.flueGasZone[3].tube.alpha[5]
EVA1.flueGasZone[3].tube.HT[1].geoPipe.Nt
EVA1.flueGasZone[3].tube.HT[1].geoPipe.L
EVA1.flueGasZone[3].tube.HT[1].geoPipe.H
EVA1.flueGasZone[3].tube.HT[1].geoPipe.d_out
EVA1.flueGasZone[3].tube.HT[1].geoPipe.s
EVA1.flueGasZone[3].tube.HT[1].geoPipe.r
EVA1.flueGasZone[3].tube.HT[1].geoPipe.zeta_add
EVA1.flueGasZone[3].tube.HT[1].geoPipe.isCylindric
EVA1.flueGasZone[3].tube.HT[1].geoPipe.A
EVA1.flueGasZone[3].tube.HT[1].diameterInner
EVA1.flueGasZone[3].tube.HT[1].steamQuality
EVA1.flueGasZone[3].tube.HT[1].dT
EVA1.flueGasZone[3].tube.HT[1].xdo
EVA1.flueGasZone[3].tube.HT[1].isSinglePhase
EVA1.flueGasZone[3].tube.HT[1].A
EVA1.flueGasZone[3].tube.HT[2].geoPipe.Nt
EVA1.flueGasZone[3].tube.HT[2].geoPipe.L
EVA1.flueGasZone[3].tube.HT[2].geoPipe.H
EVA1.flueGasZone[3].tube.HT[2].geoPipe.d_out
EVA1.flueGasZone[3].tube.HT[2].geoPipe.s
EVA1.flueGasZone[3].tube.HT[2].geoPipe.r
EVA1.flueGasZone[3].tube.HT[2].geoPipe.zeta_add
EVA1.flueGasZone[3].tube.HT[2].geoPipe.isCylindric
EVA1.flueGasZone[3].tube.HT[2].geoPipe.A
EVA1.flueGasZone[3].tube.HT[2].diameterInner
EVA1.flueGasZone[3].tube.HT[2].steamQuality
EVA1.flueGasZone[3].tube.HT[2].dT
EVA1.flueGasZone[3].tube.HT[2].xdo
EVA1.flueGasZone[3].tube.HT[2].isSinglePhase
EVA1.flueGasZone[3].tube.HT[2].A
EVA1.flueGasZone[3].tube.HT[3].geoPipe.Nt
EVA1.flueGasZone[3].tube.HT[3].geoPipe.L
EVA1.flueGasZone[3].tube.HT[3].geoPipe.H
EVA1.flueGasZone[3].tube.HT[3].geoPipe.d_out
EVA1.flueGasZone[3].tube.HT[3].geoPipe.s
EVA1.flueGasZone[3].tube.HT[3].geoPipe.r
EVA1.flueGasZone[3].tube.HT[3].geoPipe.zeta_add
EVA1.flueGasZone[3].tube.HT[3].geoPipe.isCylindric
EVA1.flueGasZone[3].tube.HT[3].geoPipe.A
EVA1.flueGasZone[3].tube.HT[3].diameterInner
EVA1.flueGasZone[3].tube.HT[3].steamQuality
EVA1.flueGasZone[3].tube.HT[3].dT
EVA1.flueGasZone[3].tube.HT[3].xdo
EVA1.flueGasZone[3].tube.HT[3].isSinglePhase
EVA1.flueGasZone[3].tube.HT[3].A
EVA1.flueGasZone[3].tube.HT[4].geoPipe.Nt
EVA1.flueGasZone[3].tube.HT[4].geoPipe.L
EVA1.flueGasZone[3].tube.HT[4].geoPipe.H
EVA1.flueGasZone[3].tube.HT[4].geoPipe.d_out
EVA1.flueGasZone[3].tube.HT[4].geoPipe.s
EVA1.flueGasZone[3].tube.HT[4].geoPipe.r
EVA1.flueGasZone[3].tube.HT[4].geoPipe.zeta_add
EVA1.flueGasZone[3].tube.HT[4].geoPipe.isCylindric
EVA1.flueGasZone[3].tube.HT[4].geoPipe.A
EVA1.flueGasZone[3].tube.HT[4].diameterInner
EVA1.flueGasZone[3].tube.HT[4].steamQuality
EVA1.flueGasZone[3].tube.HT[4].dT
EVA1.flueGasZone[3].tube.HT[4].xdo
EVA1.flueGasZone[3].tube.HT[4].isSinglePhase
EVA1.flueGasZone[3].tube.HT[4].A
EVA1.flueGasZone[3].tube.HT[5].geoPipe.Nt
EVA1.flueGasZone[3].tube.HT[5].geoPipe.L
EVA1.flueGasZone[3].tube.HT[5].geoPipe.H
EVA1.flueGasZone[3].tube.HT[5].geoPipe.d_out
EVA1.flueGasZone[3].tube.HT[5].geoPipe.s
EVA1.flueGasZone[3].tube.HT[5].geoPipe.r
EVA1.flueGasZone[3].tube.HT[5].geoPipe.zeta_add
EVA1.flueGasZone[3].tube.HT[5].geoPipe.isCylindric
EVA1.flueGasZone[3].tube.HT[5].geoPipe.A
EVA1.flueGasZone[3].tube.HT[5].diameterInner
EVA1.flueGasZone[3].tube.HT[5].steamQuality
EVA1.flueGasZone[3].tube.HT[5].dT
EVA1.flueGasZone[3].tube.HT[5].xdo
EVA1.flueGasZone[3].tube.HT[5].isSinglePhase
EVA1.flueGasZone[3].tube.HT[5].A
EVA1.flueGasZone[3].heatTransfer.numberOfNodes
EVA1.flueGasZone[3].heatTransfer.lengthRe
EVA1.flueGasZone[3].heatTransfer.lengthNu
EVA1.flueGasZone[3].heatTransfer.ACrossFlow
EVA1.flueGasZone[3].heatTransfer.AHeatTransfer
EVA1.flueGasZone[3].heatTransfer.geoFGZ.pt
EVA1.flueGasZone[3].heatTransfer.geoFGZ.pl
EVA1.flueGasZone[3].heatTransfer.geoFGZ.Lw
EVA1.flueGasZone[3].heatTransfer.geoFGZ.Ld
EVA1.flueGasZone[3].heatTransfer.geoFGZ.Lh
EVA1.flueGasZone[3].heatTransfer.geoFGZ.Nr
EVA1.flueGasZone[3].heatTransfer.geoFGZ.staggered
EVA1.flueGasZone[3].heatTransfer.geoFins.finned
EVA1.flueGasZone[3].heatTransfer.geoFins.serrated
EVA1.flueGasZone[3].heatTransfer.geoFins.h
EVA1.flueGasZone[3].heatTransfer.geoFins.s
EVA1.flueGasZone[3].heatTransfer.geoFins.b
EVA1.flueGasZone[3].heatTransfer.geoFins.w
EVA1.flueGasZone[3].heatTransfer.geoFins.n
EVA1.flueGasZone[3].heatTransfer.geoPipe.Nt
EVA1.flueGasZone[3].heatTransfer.geoPipe.L
EVA1.flueGasZone[3].heatTransfer.geoPipe.H
EVA1.flueGasZone[3].heatTransfer.geoPipe.d_out
EVA1.flueGasZone[3].heatTransfer.geoPipe.s
EVA1.flueGasZone[3].heatTransfer.geoPipe.r
EVA1.flueGasZone[3].heatTransfer.geoPipe.zeta_add
EVA1.flueGasZone[3].heatTransfer.geoPipe.isCylindric
EVA1.flueGasZone[3].heatTransfer.geoPipe.A
EVA1.flueGasZone[3].heatTransfer.alpha_start
EVA1.flueGasZone[3].heatTransfer.state.p
EVA1.flueGasZone[3].heatTransfer.state.T
EVA1.flueGasZone[3].heatTransfer.state.X[1]
EVA1.flueGasZone[3].heatTransfer.state.X[2]
EVA1.flueGasZone[3].heatTransfer.state.X[3]
EVA1.flueGasZone[3].heatTransfer.state.X[4]
EVA1.flueGasZone[3].heatTransfer.state.X[5]
EVA1.flueGasZone[3].heatTransfer.state.X[6]
EVA1.flueGasZone[3].heatTransfer.Re
EVA1.flueGasZone[3].heatTransfer.Pr
EVA1.flueGasZone[3].heatTransfer.Nu[1]
EVA1.flueGasZone[3].heatTransfer.Nu[2]
EVA1.flueGasZone[3].heatTransfer.Nu[3]
EVA1.flueGasZone[3].heatTransfer.Nu[4]
EVA1.flueGasZone[3].heatTransfer.Nu[5]
EVA1.flueGasZone[3].heatTransfer.cp
EVA1.flueGasZone[3].heatTransfer.eta
EVA1.flueGasZone[3].heatTransfer.lambda
EVA1.flueGasZone[3].heatTransfer.Psi
EVA1.flueGasZone[3].heatTransfer.heatingSurfaceFactor_set
EVA1.flueGasZone[3].mediumGasOut.h
EVA1.flueGasZone[3].mediumGasOut.der(h)
EVA1.flueGasZone[3].mediumGasOut.d
EVA1.flueGasZone[3].mediumGasOut.X[1]
EVA1.flueGasZone[3].mediumGasOut.X[2]
EVA1.flueGasZone[3].mediumGasOut.X[3]
EVA1.flueGasZone[3].mediumGasOut.X[4]
EVA1.flueGasZone[3].mediumGasOut.X[5]
EVA1.flueGasZone[3].mediumGasOut.X[6]
EVA1.flueGasZone[3].mediumGasOut.u
EVA1.flueGasZone[3].mediumGasOut.R
EVA1.flueGasZone[3].mediumGasOut.MM
EVA1.flueGasZone[3].mediumGasOut.state.p
EVA1.flueGasZone[3].mediumGasOut.state.T
EVA1.flueGasZone[3].mediumGasOut.state.X[1]
EVA1.flueGasZone[3].mediumGasOut.state.X[2]
EVA1.flueGasZone[3].mediumGasOut.state.X[3]
EVA1.flueGasZone[3].mediumGasOut.state.X[4]
EVA1.flueGasZone[3].mediumGasOut.state.X[5]
EVA1.flueGasZone[3].mediumGasOut.state.X[6]
EVA1.flueGasZone[3].mediumGasOut.preferredMediumStates
EVA1.flueGasZone[3].mediumGasOut.standardOrderComponents
EVA1.flueGasZone[3].mediumGasOut.T_degC
EVA1.flueGasZone[3].mediumGasOut.p_bar
EVA1.flueGasZone[3].mediumGas.h
EVA1.flueGasZone[3].mediumGas.d
EVA1.flueGasZone[3].mediumGas.X[1]
EVA1.flueGasZone[3].mediumGas.X[2]
EVA1.flueGasZone[3].mediumGas.X[3]
EVA1.flueGasZone[3].mediumGas.X[4]
EVA1.flueGasZone[3].mediumGas.X[5]
EVA1.flueGasZone[3].mediumGas.X[6]
EVA1.flueGasZone[3].mediumGas.u
EVA1.flueGasZone[3].mediumGas.R
EVA1.flueGasZone[3].mediumGas.MM
EVA1.flueGasZone[3].mediumGas.state.p
EVA1.flueGasZone[3].mediumGas.state.T
EVA1.flueGasZone[3].mediumGas.state.X[1]
EVA1.flueGasZone[3].mediumGas.state.X[2]
EVA1.flueGasZone[3].mediumGas.state.X[3]
EVA1.flueGasZone[3].mediumGas.state.X[4]
EVA1.flueGasZone[3].mediumGas.state.X[5]
EVA1.flueGasZone[3].mediumGas.state.X[6]
EVA1.flueGasZone[3].mediumGas.preferredMediumStates
EVA1.flueGasZone[3].mediumGas.standardOrderComponents
EVA1.flueGasZone[3].mediumGas.T_degC
EVA1.flueGasZone[3].mediumGas.p_bar
EVA1.flueGasZone[3].mediumGasIn.d
EVA1.flueGasZone[3].mediumGasIn.X[1]
EVA1.flueGasZone[3].mediumGasIn.X[2]
EVA1.flueGasZone[3].mediumGasIn.X[3]
EVA1.flueGasZone[3].mediumGasIn.X[4]
EVA1.flueGasZone[3].mediumGasIn.X[5]
EVA1.flueGasZone[3].mediumGasIn.X[6]
EVA1.flueGasZone[3].mediumGasIn.u
EVA1.flueGasZone[3].mediumGasIn.R
EVA1.flueGasZone[3].mediumGasIn.MM
EVA1.flueGasZone[3].mediumGasIn.state.p
EVA1.flueGasZone[3].mediumGasIn.state.T
EVA1.flueGasZone[3].mediumGasIn.state.X[1]
EVA1.flueGasZone[3].mediumGasIn.state.X[2]
EVA1.flueGasZone[3].mediumGasIn.state.X[3]
EVA1.flueGasZone[3].mediumGasIn.state.X[4]
EVA1.flueGasZone[3].mediumGasIn.state.X[5]
EVA1.flueGasZone[3].mediumGasIn.state.X[6]
EVA1.flueGasZone[3].mediumGasIn.preferredMediumStates
EVA1.flueGasZone[3].mediumGasIn.standardOrderComponents
EVA1.flueGasZone[3].mediumGasIn.T_degC
EVA1.flueGasZone[3].mediumGasIn.p_bar
EVA1.flueGasZone[3].state_gas.X[1]
EVA1.flueGasZone[3].state_gas.X[2]
EVA1.flueGasZone[3].state_gas.X[3]
EVA1.flueGasZone[3].state_gas.X[4]
EVA1.flueGasZone[3].state_gas.X[5]
EVA1.flueGasZone[3].state_gas.X[6]
EVA1.flueGasZone[3].V_gas
EVA1.flueGasZone[3].deltaT[1]
EVA1.flueGasZone[3].deltaT[2]
EVA1.flueGasZone[3].deltaT[3]
EVA1.flueGasZone[3].deltaT[4]
EVA1.flueGasZone[3].deltaT[5]
EVA1.flueGasZone[3].T_start[1]
EVA1.flueGasZone[3].T_start[2]
EVA1.flueGasZone[3].T_start[3]
EVA1.flueGasZone[3].T_start[4]
EVA1.flueGasZone[3].T_start[5]
EVA1.flueGasZone[3].lengthCharacteristicRe
EVA1.flueGasZone[3].Ah
EVA1.flueGasZone[3].temperatureRate[1]
EVA1.flueGasZone[3].temperatureRate[2]
EVA1.flueGasZone[3].temperatureRate[3]
EVA1.flueGasZone[3].temperatureRate[4]
EVA1.flueGasZone[3].temperatureRate[5]
EVA1.flueGasZone[3].fins.pi
EVA1.flueGasZone[3].fins.numberOfNodes
EVA1.flueGasZone[3].fins.geoFins.finned
EVA1.flueGasZone[3].fins.geoFins.serrated
EVA1.flueGasZone[3].fins.geoFins.h
EVA1.flueGasZone[3].fins.geoFins.s
EVA1.flueGasZone[3].fins.geoFins.b
EVA1.flueGasZone[3].fins.geoFins.w
EVA1.flueGasZone[3].fins.geoFins.n
EVA1.flueGasZone[3].fins.geoPipe.Nt
EVA1.flueGasZone[3].fins.geoPipe.L
EVA1.flueGasZone[3].fins.geoPipe.H
EVA1.flueGasZone[3].fins.geoPipe.d_out
EVA1.flueGasZone[3].fins.geoPipe.s
EVA1.flueGasZone[3].fins.geoPipe.r
EVA1.flueGasZone[3].fins.geoPipe.zeta_add
EVA1.flueGasZone[3].fins.geoPipe.isCylindric
EVA1.flueGasZone[3].fins.geoPipe.A
EVA1.flueGasZone[3].fins.metal.cp
EVA1.flueGasZone[3].fins.metal.lambda
EVA1.flueGasZone[3].fins.metal.rho
EVA1.flueGasZone[3].fins.T_start[1]
EVA1.flueGasZone[3].fins.T_start[2]
EVA1.flueGasZone[3].fins.T_start[3]
EVA1.flueGasZone[3].fins.T_start[4]
EVA1.flueGasZone[3].fins.T_start[5]
EVA1.flueGasZone[3].fins.useDynamicEquations
EVA1.flueGasZone[3].fins.T[1]
EVA1.flueGasZone[3].fins.der(T[1])
EVA1.flueGasZone[3].fins.T[2]
EVA1.flueGasZone[3].fins.der(T[2])
EVA1.flueGasZone[3].fins.T[3]
EVA1.flueGasZone[3].fins.der(T[3])
EVA1.flueGasZone[3].fins.T[4]
EVA1.flueGasZone[3].fins.der(T[4])
EVA1.flueGasZone[3].fins.T[5]
EVA1.flueGasZone[3].fins.der(T[5])
EVA1.flueGasZone[3].fins.V
EVA1.flueGasZone[3].fins.M
EVA1.flueGasZone[3].fins.Cp
EVA1.flueGasZone[3].heatPortToGas.numberOfNodes
EVA1.flueGasZone[3].heatPortToGas.Q_flow[1]
EVA1.flueGasZone[3].heatPortToGas.Q_flow[2]
EVA1.flueGasZone[3].heatPortToGas.Q_flow[3]
EVA1.flueGasZone[3].heatPortToGas.Q_flow[4]
EVA1.flueGasZone[3].heatPortToGas.Q_flow[5]
EVA1.flueGasZone[4].pi
EVA1.flueGasZone[4].numberOfTubeNodes
EVA1.flueGasZone[4].numberOfWallLayers
EVA1.flueGasZone[4].hydraulicResistance_gas
EVA1.flueGasZone[4].delayInnerHeatTransfer
EVA1.flueGasZone[4].timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[4].m_flow_start
EVA1.flueGasZone[4].pIn_start
EVA1.flueGasZone[4].pOut_start
EVA1.flueGasZone[4].hIn_start
EVA1.flueGasZone[4].hOut_start
EVA1.flueGasZone[4].pGas_start
EVA1.flueGasZone[4].TGasIn_start
EVA1.flueGasZone[4].TGasOut_start
EVA1.flueGasZone[4].m_flowGas_start
EVA1.flueGasZone[4].initializeInletPressure
EVA1.flueGasZone[4].initializeSteadyStateEnthalpies
EVA1.flueGasZone[4].initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[4].useHeatInput
EVA1.flueGasZone[4].initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[4].TWall_start[1]
EVA1.flueGasZone[4].TWall_start[2]
EVA1.flueGasZone[4].TWall_start[3]
EVA1.flueGasZone[4].TWall_start[4]
EVA1.flueGasZone[4].TWall_start[5]
EVA1.flueGasZone[4].geoFGZ.pt
EVA1.flueGasZone[4].geoFGZ.pl
EVA1.flueGasZone[4].geoFGZ.Lw
EVA1.flueGasZone[4].geoFGZ.Ld
EVA1.flueGasZone[4].geoFGZ.Lh
EVA1.flueGasZone[4].geoFGZ.Nr
EVA1.flueGasZone[4].geoFGZ.staggered
EVA1.flueGasZone[4].geoFins.finned
EVA1.flueGasZone[4].geoFins.serrated
EVA1.flueGasZone[4].geoFins.h
EVA1.flueGasZone[4].geoFins.s
EVA1.flueGasZone[4].geoFins.b
EVA1.flueGasZone[4].geoFins.w
EVA1.flueGasZone[4].geoFins.n
EVA1.flueGasZone[4].geoPipe.Nt
EVA1.flueGasZone[4].geoPipe.L
EVA1.flueGasZone[4].geoPipe.H
EVA1.flueGasZone[4].geoPipe.d_out
EVA1.flueGasZone[4].geoPipe.s
EVA1.flueGasZone[4].geoPipe.r
EVA1.flueGasZone[4].geoPipe.zeta_add
EVA1.flueGasZone[4].geoPipe.isCylindric
EVA1.flueGasZone[4].geoPipe.A
EVA1.flueGasZone[4].metal.cp
EVA1.flueGasZone[4].metal.lambda
EVA1.flueGasZone[4].metal.rho
EVA1.flueGasZone[4].cleanliness
EVA1.flueGasZone[4].computeHeatLossInPercent
EVA1.flueGasZone[4].heatloss
EVA1.flueGasZone[4].kLossToAmbient
EVA1.flueGasZone[4].T_ambient
EVA1.flueGasZone[4].Q_flowToAmbient[1]
EVA1.flueGasZone[4].Q_flowToAmbient[2]
EVA1.flueGasZone[4].Q_flowToAmbient[3]
EVA1.flueGasZone[4].Q_flowToAmbient[4]
EVA1.flueGasZone[4].Q_flowToAmbient[5]
EVA1.flueGasZone[4].tube.hIn
EVA1.flueGasZone[4].tube.hOut
EVA1.flueGasZone[4].tube.preferredStates
EVA1.flueGasZone[4].tube.m_flow_start
EVA1.flueGasZone[4].tube.pIn_start
EVA1.flueGasZone[4].tube.pOut_start
EVA1.flueGasZone[4].tube.useTemperatureStartValue
EVA1.flueGasZone[4].tube.hIn_start
EVA1.flueGasZone[4].tube.hOut_start
EVA1.flueGasZone[4].tube.TIn_start
EVA1.flueGasZone[4].tube.TOut_start
EVA1.flueGasZone[4].tube.XIn_start[1]
EVA1.flueGasZone[4].tube.XOut_start[1]
EVA1.flueGasZone[4].tube.useSubstanceStorage
EVA1.flueGasZone[4].tube.useEnergyStorage
EVA1.flueGasZone[4].tube.dp
EVA1.flueGasZone[4].tube.state_from_a.phase
EVA1.flueGasZone[4].tube.state_from_a.h
EVA1.flueGasZone[4].tube.state_from_a.d
EVA1.flueGasZone[4].tube.state_from_a.T
EVA1.flueGasZone[4].tube.state_from_b.phase
EVA1.flueGasZone[4].tube.state_from_b.h
EVA1.flueGasZone[4].tube.state_from_b.d
EVA1.flueGasZone[4].tube.state_from_b.T
EVA1.flueGasZone[4].tube.g
EVA1.flueGasZone[4].tube.pi
EVA1.flueGasZone[4].tube.numberOfNodes
EVA1.flueGasZone[4].tube.geoPipe.Nt
EVA1.flueGasZone[4].tube.geoPipe.L
EVA1.flueGasZone[4].tube.geoPipe.H
EVA1.flueGasZone[4].tube.geoPipe.d_out
EVA1.flueGasZone[4].tube.geoPipe.s
EVA1.flueGasZone[4].tube.geoPipe.r
EVA1.flueGasZone[4].tube.geoPipe.zeta_add
EVA1.flueGasZone[4].tube.geoPipe.isCylindric
EVA1.flueGasZone[4].tube.geoPipe.A
EVA1.flueGasZone[4].tube.initializeInletPressure
EVA1.flueGasZone[4].tube.initializeSteadyStateEnthalpies
EVA1.flueGasZone[4].tube.initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[4].tube.h_start[1]
EVA1.flueGasZone[4].tube.h_start[2]
EVA1.flueGasZone[4].tube.h_start[3]
EVA1.flueGasZone[4].tube.h_start[4]
EVA1.flueGasZone[4].tube.h_start[5]
EVA1.flueGasZone[4].tube.Q_flow_start[1]
EVA1.flueGasZone[4].tube.Q_flow_start[2]
EVA1.flueGasZone[4].tube.Q_flow_start[3]
EVA1.flueGasZone[4].tube.Q_flow_start[4]
EVA1.flueGasZone[4].tube.Q_flow_start[5]
EVA1.flueGasZone[4].tube.additionalVolume
EVA1.flueGasZone[4].tube.useDynamicMassBalance
EVA1.flueGasZone[4].tube.considerDynamicMomentum
EVA1.flueGasZone[4].tube.considerDynamicPressure
EVA1.flueGasZone[4].tube.heatedArea
EVA1.flueGasZone[4].tube.diameterInner
EVA1.flueGasZone[4].tube.dz
EVA1.flueGasZone[4].tube.V
EVA1.flueGasZone[4].tube.A
EVA1.flueGasZone[4].tube.VTotal
EVA1.flueGasZone[4].tube.VCell
EVA1.flueGasZone[4].tube.sinphi
EVA1.flueGasZone[4].tube.fluid[1].h
EVA1.flueGasZone[4].tube.fluid[1].der(h)
EVA1.flueGasZone[4].tube.fluid[1].X[1]
EVA1.flueGasZone[4].tube.fluid[1].u
EVA1.flueGasZone[4].tube.fluid[1].R
EVA1.flueGasZone[4].tube.fluid[1].MM
EVA1.flueGasZone[4].tube.fluid[1].preferredMediumStates
EVA1.flueGasZone[4].tube.fluid[1].standardOrderComponents
EVA1.flueGasZone[4].tube.fluid[1].T_degC
EVA1.flueGasZone[4].tube.fluid[1].p_bar
EVA1.flueGasZone[4].tube.fluid[1].sat.Tsat
EVA1.flueGasZone[4].tube.fluid[1].phase
EVA1.flueGasZone[4].tube.fluid[2].p
EVA1.flueGasZone[4].tube.fluid[2].der(p)
EVA1.flueGasZone[4].tube.fluid[2].h
EVA1.flueGasZone[4].tube.fluid[2].der(h)
EVA1.flueGasZone[4].tube.fluid[2].X[1]
EVA1.flueGasZone[4].tube.fluid[2].u
EVA1.flueGasZone[4].tube.fluid[2].R
EVA1.flueGasZone[4].tube.fluid[2].MM
EVA1.flueGasZone[4].tube.fluid[2].preferredMediumStates
EVA1.flueGasZone[4].tube.fluid[2].standardOrderComponents
EVA1.flueGasZone[4].tube.fluid[2].T_degC
EVA1.flueGasZone[4].tube.fluid[2].p_bar
EVA1.flueGasZone[4].tube.fluid[2].sat.Tsat
EVA1.flueGasZone[4].tube.fluid[2].phase
EVA1.flueGasZone[4].tube.fluid[3].h
EVA1.flueGasZone[4].tube.fluid[3].der(h)
EVA1.flueGasZone[4].tube.fluid[3].X[1]
EVA1.flueGasZone[4].tube.fluid[3].u
EVA1.flueGasZone[4].tube.fluid[3].R
EVA1.flueGasZone[4].tube.fluid[3].MM
EVA1.flueGasZone[4].tube.fluid[3].preferredMediumStates
EVA1.flueGasZone[4].tube.fluid[3].standardOrderComponents
EVA1.flueGasZone[4].tube.fluid[3].T_degC
EVA1.flueGasZone[4].tube.fluid[3].p_bar
EVA1.flueGasZone[4].tube.fluid[3].sat.Tsat
EVA1.flueGasZone[4].tube.fluid[3].phase
EVA1.flueGasZone[4].tube.fluid[4].h
EVA1.flueGasZone[4].tube.fluid[4].der(h)
EVA1.flueGasZone[4].tube.fluid[4].X[1]
EVA1.flueGasZone[4].tube.fluid[4].u
EVA1.flueGasZone[4].tube.fluid[4].R
EVA1.flueGasZone[4].tube.fluid[4].MM
EVA1.flueGasZone[4].tube.fluid[4].preferredMediumStates
EVA1.flueGasZone[4].tube.fluid[4].standardOrderComponents
EVA1.flueGasZone[4].tube.fluid[4].T_degC
EVA1.flueGasZone[4].tube.fluid[4].p_bar
EVA1.flueGasZone[4].tube.fluid[4].sat.Tsat
EVA1.flueGasZone[4].tube.fluid[4].phase
EVA1.flueGasZone[4].tube.fluid[5].h
EVA1.flueGasZone[4].tube.fluid[5].der(h)
EVA1.flueGasZone[4].tube.fluid[5].X[1]
EVA1.flueGasZone[4].tube.fluid[5].u
EVA1.flueGasZone[4].tube.fluid[5].R
EVA1.flueGasZone[4].tube.fluid[5].MM
EVA1.flueGasZone[4].tube.fluid[5].preferredMediumStates
EVA1.flueGasZone[4].tube.fluid[5].standardOrderComponents
EVA1.flueGasZone[4].tube.fluid[5].T_degC
EVA1.flueGasZone[4].tube.fluid[5].p_bar
EVA1.flueGasZone[4].tube.fluid[5].sat.Tsat
EVA1.flueGasZone[4].tube.fluid[5].phase
EVA1.flueGasZone[4].tube.m_flows[1]
EVA1.flueGasZone[4].tube.der(m_flows[1])
EVA1.flueGasZone[4].tube.d_av
EVA1.flueGasZone[4].tube.der(d_av)
EVA1.flueGasZone[4].tube.vol_av
EVA1.flueGasZone[4].tube.dpfric
EVA1.flueGasZone[4].tube.dphyd
EVA1.flueGasZone[4].tube.dpHyd_start
EVA1.flueGasZone[4].tube.dpFric_start
EVA1.flueGasZone[4].tube.T_start[1]
EVA1.flueGasZone[4].tube.T_start[2]
EVA1.flueGasZone[4].tube.T_start[3]
EVA1.flueGasZone[4].tube.T_start[4]
EVA1.flueGasZone[4].tube.T_start[5]
EVA1.flueGasZone[4].tube.d_start[1]
EVA1.flueGasZone[4].tube.d_start[2]
EVA1.flueGasZone[4].tube.d_start[3]
EVA1.flueGasZone[4].tube.d_start[4]
EVA1.flueGasZone[4].tube.d_start[5]
EVA1.flueGasZone[4].tube.q_start
EVA1.flueGasZone[4].tube.T[1]
EVA1.flueGasZone[4].tube.T[2]
EVA1.flueGasZone[4].tube.T[3]
EVA1.flueGasZone[4].tube.T[4]
EVA1.flueGasZone[4].tube.T[5]
EVA1.flueGasZone[4].tube.d[1]
EVA1.flueGasZone[4].tube.d[2]
EVA1.flueGasZone[4].tube.d[3]
EVA1.flueGasZone[4].tube.d[4]
EVA1.flueGasZone[4].tube.d[5]
EVA1.flueGasZone[4].tube.der(d[1])
EVA1.flueGasZone[4].tube.der(d[2])
EVA1.flueGasZone[4].tube.der(d[3])
EVA1.flueGasZone[4].tube.der(d[4])
EVA1.flueGasZone[4].tube.der(d[5])
EVA1.flueGasZone[4].tube.vol[1]
EVA1.flueGasZone[4].tube.vol[2]
EVA1.flueGasZone[4].tube.vol[3]
EVA1.flueGasZone[4].tube.vol[4]
EVA1.flueGasZone[4].tube.vol[5]
EVA1.flueGasZone[4].tube.cp[1]
EVA1.flueGasZone[4].tube.cp[2]
EVA1.flueGasZone[4].tube.cp[3]
EVA1.flueGasZone[4].tube.cp[4]
EVA1.flueGasZone[4].tube.cp[5]
EVA1.flueGasZone[4].tube.eta[1]
EVA1.flueGasZone[4].tube.eta[2]
EVA1.flueGasZone[4].tube.eta[3]
EVA1.flueGasZone[4].tube.eta[4]
EVA1.flueGasZone[4].tube.eta[5]
EVA1.flueGasZone[4].tube.lambda[1]
EVA1.flueGasZone[4].tube.lambda[2]
EVA1.flueGasZone[4].tube.lambda[3]
EVA1.flueGasZone[4].tube.lambda[4]
EVA1.flueGasZone[4].tube.lambda[5]
EVA1.flueGasZone[4].tube.E_flows[1]
EVA1.flueGasZone[4].tube.E_flows[2]
EVA1.flueGasZone[4].tube.E_flows[3]
EVA1.flueGasZone[4].tube.E_flows[4]
EVA1.flueGasZone[4].tube.E_flows[5]
EVA1.flueGasZone[4].tube.qHeating[1]
EVA1.flueGasZone[4].tube.qHeating[2]
EVA1.flueGasZone[4].tube.qHeating[3]
EVA1.flueGasZone[4].tube.qHeating[4]
EVA1.flueGasZone[4].tube.qHeating[5]
EVA1.flueGasZone[4].tube.useDelayedPressure
EVA1.flueGasZone[4].tube.timeDelayOfPressure
EVA1.flueGasZone[4].tube.hydM
EVA1.flueGasZone[4].tube.hydP
EVA1.flueGasZone[4].tube.friction.geoPipe.Nt
EVA1.flueGasZone[4].tube.friction.geoPipe.L
EVA1.flueGasZone[4].tube.friction.geoPipe.H
EVA1.flueGasZone[4].tube.friction.geoPipe.d_out
EVA1.flueGasZone[4].tube.friction.geoPipe.s
EVA1.flueGasZone[4].tube.friction.geoPipe.r
EVA1.flueGasZone[4].tube.friction.geoPipe.zeta_add
EVA1.flueGasZone[4].tube.friction.geoPipe.isCylindric
EVA1.flueGasZone[4].tube.friction.geoPipe.A
EVA1.flueGasZone[4].tube.friction.dz
EVA1.flueGasZone[4].tube.friction.lambda
EVA1.flueGasZone[4].tube.friction.steamQuality
EVA1.flueGasZone[4].tube.friction.xdo
EVA1.flueGasZone[4].tube.friction.isSinglePhase
EVA1.flueGasZone[4].tube.friction.m_flowLaminar
EVA1.flueGasZone[4].tube.friction.diameterInner
EVA1.flueGasZone[4].tube.friction.A
EVA1.flueGasZone[4].tube.friction.zeta
EVA1.flueGasZone[4].tube.TWall[1]
EVA1.flueGasZone[4].tube.TWall[2]
EVA1.flueGasZone[4].tube.TWall[3]
EVA1.flueGasZone[4].tube.TWall[4]
EVA1.flueGasZone[4].tube.TWall[5]
EVA1.flueGasZone[4].tube.delayInnerHeatTransfer
EVA1.flueGasZone[4].tube.timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[4].tube.useHeatInput
EVA1.flueGasZone[4].tube.initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[4].tube.alpha_start
EVA1.flueGasZone[4].tube.numberOfWallLayers
EVA1.flueGasZone[4].tube.TWall_start[1]
EVA1.flueGasZone[4].tube.TWall_start[2]
EVA1.flueGasZone[4].tube.TWall_start[3]
EVA1.flueGasZone[4].tube.TWall_start[4]
EVA1.flueGasZone[4].tube.TWall_start[5]
EVA1.flueGasZone[4].tube.metal.cp
EVA1.flueGasZone[4].tube.metal.lambda
EVA1.flueGasZone[4].tube.metal.rho
EVA1.flueGasZone[4].tube.stressCoeffofWall.eta
EVA1.flueGasZone[4].tube.stressCoeffofWall.alpha_t
EVA1.flueGasZone[4].tube.stressCoeffofWall.alpha_m
EVA1.flueGasZone[4].tube.stressCoeffofWall.beta
EVA1.flueGasZone[4].tube.stressCoeffofWall.E
EVA1.flueGasZone[4].tube.heatPort[1].Q_flow
EVA1.flueGasZone[4].tube.heatPort[2].Q_flow
EVA1.flueGasZone[4].tube.heatPort[3].Q_flow
EVA1.flueGasZone[4].tube.heatPort[4].Q_flow
EVA1.flueGasZone[4].tube.heatPort[5].Q_flow
EVA1.flueGasZone[4].tube.wall.numberOfNodes
EVA1.flueGasZone[4].tube.wall.numberOfWallLayers
EVA1.flueGasZone[4].tube.wall.assumePlainHeatTransfer
EVA1.flueGasZone[4].tube.wall.metal.cp
EVA1.flueGasZone[4].tube.wall.metal.lambda
EVA1.flueGasZone[4].tube.wall.metal.rho
EVA1.flueGasZone[4].tube.wall.numberOfParallelTubes
EVA1.flueGasZone[4].tube.wall.length
EVA1.flueGasZone[4].tube.wall.diameterInner
EVA1.flueGasZone[4].tube.wall.wallThickness
EVA1.flueGasZone[4].tube.wall.useDynamicEquations
EVA1.flueGasZone[4].tube.wall.considerConductivity
EVA1.flueGasZone[4].tube.wall.considerAxialHeatTransfer
EVA1.flueGasZone[4].tube.wall.T_start[1]
EVA1.flueGasZone[4].tube.wall.T_start[2]
EVA1.flueGasZone[4].tube.wall.T_start[3]
EVA1.flueGasZone[4].tube.wall.T_start[4]
EVA1.flueGasZone[4].tube.wall.T_start[5]
EVA1.flueGasZone[4].tube.wall.layer[1].pi
EVA1.flueGasZone[4].tube.wall.layer[1].numberOfNodes
EVA1.flueGasZone[4].tube.wall.layer[1].assumePlainHeatTransfer
EVA1.flueGasZone[4].tube.wall.layer[1].metal.cp
EVA1.flueGasZone[4].tube.wall.layer[1].metal.lambda
EVA1.flueGasZone[4].tube.wall.layer[1].metal.rho
EVA1.flueGasZone[4].tube.wall.layer[1].numberOfParallelTubes
EVA1.flueGasZone[4].tube.wall.layer[1].length
EVA1.flueGasZone[4].tube.wall.layer[1].diameterInner
EVA1.flueGasZone[4].tube.wall.layer[1].wallThickness
EVA1.flueGasZone[4].tube.wall.layer[1].useDynamicEquations
EVA1.flueGasZone[4].tube.wall.layer[1].considerConductivity
EVA1.flueGasZone[4].tube.wall.layer[1].considerAxialHeatTransfer
EVA1.flueGasZone[4].tube.wall.layer[1].T_start[1]
EVA1.flueGasZone[4].tube.wall.layer[1].T_start[2]
EVA1.flueGasZone[4].tube.wall.layer[1].T_start[3]
EVA1.flueGasZone[4].tube.wall.layer[1].T_start[4]
EVA1.flueGasZone[4].tube.wall.layer[1].T_start[5]
EVA1.flueGasZone[4].tube.wall.layer[1].port_int[1].Q_flow
EVA1.flueGasZone[4].tube.wall.layer[1].port_int[2].Q_flow
EVA1.flueGasZone[4].tube.wall.layer[1].port_int[3].Q_flow
EVA1.flueGasZone[4].tube.wall.layer[1].port_int[4].Q_flow
EVA1.flueGasZone[4].tube.wall.layer[1].port_int[5].Q_flow
EVA1.flueGasZone[4].tube.wall.layer[1].Am
EVA1.flueGasZone[4].tube.wall.layer[1].T[1]
EVA1.flueGasZone[4].tube.wall.layer[1].der(T[1])
EVA1.flueGasZone[4].tube.wall.layer[1].T[2]
EVA1.flueGasZone[4].tube.wall.layer[1].der(T[2])
EVA1.flueGasZone[4].tube.wall.layer[1].T[3]
EVA1.flueGasZone[4].tube.wall.layer[1].der(T[3])
EVA1.flueGasZone[4].tube.wall.layer[1].T[4]
EVA1.flueGasZone[4].tube.wall.layer[1].der(T[4])
EVA1.flueGasZone[4].tube.wall.layer[1].T[5]
EVA1.flueGasZone[4].tube.wall.layer[1].der(T[5])
EVA1.flueGasZone[4].tube.wall.layer[1].rint
EVA1.flueGasZone[4].tube.wall.layer[1].rext
EVA1.flueGasZone[4].tube.wall.layer[1].Tube_mass
EVA1.flueGasZone[4].tube.wall.layer[1].HeatCap
EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[1]
EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[2]
EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[3]
EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[4]
EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[5]
EVA1.flueGasZone[4].tube.wall.stress.eta
EVA1.flueGasZone[4].tube.wall.stress.alpha_t
EVA1.flueGasZone[4].tube.wall.stress.alpha_m
EVA1.flueGasZone[4].tube.wall.stress.beta
EVA1.flueGasZone[4].tube.wall.stress.E
EVA1.flueGasZone[4].tube.wall.dT
EVA1.flueGasZone[4].tube.wall.ft
EVA1.flueGasZone[4].tube.wall.fm
EVA1.flueGasZone[4].tube.wall.tension
EVA1.flueGasZone[4].tube.heatport.numberOfNodes
EVA1.flueGasZone[4].tube.alpha[1]
EVA1.flueGasZone[4].tube.alpha[2]
EVA1.flueGasZone[4].tube.alpha[3]
EVA1.flueGasZone[4].tube.alpha[4]
EVA1.flueGasZone[4].tube.alpha[5]
EVA1.flueGasZone[4].tube.HT[1].geoPipe.Nt
EVA1.flueGasZone[4].tube.HT[1].geoPipe.L
EVA1.flueGasZone[4].tube.HT[1].geoPipe.H
EVA1.flueGasZone[4].tube.HT[1].geoPipe.d_out
EVA1.flueGasZone[4].tube.HT[1].geoPipe.s
EVA1.flueGasZone[4].tube.HT[1].geoPipe.r
EVA1.flueGasZone[4].tube.HT[1].geoPipe.zeta_add
EVA1.flueGasZone[4].tube.HT[1].geoPipe.isCylindric
EVA1.flueGasZone[4].tube.HT[1].geoPipe.A
EVA1.flueGasZone[4].tube.HT[1].diameterInner
EVA1.flueGasZone[4].tube.HT[1].steamQuality
EVA1.flueGasZone[4].tube.HT[1].dT
EVA1.flueGasZone[4].tube.HT[1].xdo
EVA1.flueGasZone[4].tube.HT[1].isSinglePhase
EVA1.flueGasZone[4].tube.HT[1].A
EVA1.flueGasZone[4].tube.HT[2].geoPipe.Nt
EVA1.flueGasZone[4].tube.HT[2].geoPipe.L
EVA1.flueGasZone[4].tube.HT[2].geoPipe.H
EVA1.flueGasZone[4].tube.HT[2].geoPipe.d_out
EVA1.flueGasZone[4].tube.HT[2].geoPipe.s
EVA1.flueGasZone[4].tube.HT[2].geoPipe.r
EVA1.flueGasZone[4].tube.HT[2].geoPipe.zeta_add
EVA1.flueGasZone[4].tube.HT[2].geoPipe.isCylindric
EVA1.flueGasZone[4].tube.HT[2].geoPipe.A
EVA1.flueGasZone[4].tube.HT[2].diameterInner
EVA1.flueGasZone[4].tube.HT[2].steamQuality
EVA1.flueGasZone[4].tube.HT[2].dT
EVA1.flueGasZone[4].tube.HT[2].xdo
EVA1.flueGasZone[4].tube.HT[2].isSinglePhase
EVA1.flueGasZone[4].tube.HT[2].A
EVA1.flueGasZone[4].tube.HT[3].geoPipe.Nt
EVA1.flueGasZone[4].tube.HT[3].geoPipe.L
EVA1.flueGasZone[4].tube.HT[3].geoPipe.H
EVA1.flueGasZone[4].tube.HT[3].geoPipe.d_out
EVA1.flueGasZone[4].tube.HT[3].geoPipe.s
EVA1.flueGasZone[4].tube.HT[3].geoPipe.r
EVA1.flueGasZone[4].tube.HT[3].geoPipe.zeta_add
EVA1.flueGasZone[4].tube.HT[3].geoPipe.isCylindric
EVA1.flueGasZone[4].tube.HT[3].geoPipe.A
EVA1.flueGasZone[4].tube.HT[3].diameterInner
EVA1.flueGasZone[4].tube.HT[3].steamQuality
EVA1.flueGasZone[4].tube.HT[3].dT
EVA1.flueGasZone[4].tube.HT[3].xdo
EVA1.flueGasZone[4].tube.HT[3].isSinglePhase
EVA1.flueGasZone[4].tube.HT[3].A
EVA1.flueGasZone[4].tube.HT[4].geoPipe.Nt
EVA1.flueGasZone[4].tube.HT[4].geoPipe.L
EVA1.flueGasZone[4].tube.HT[4].geoPipe.H
EVA1.flueGasZone[4].tube.HT[4].geoPipe.d_out
EVA1.flueGasZone[4].tube.HT[4].geoPipe.s
EVA1.flueGasZone[4].tube.HT[4].geoPipe.r
EVA1.flueGasZone[4].tube.HT[4].geoPipe.zeta_add
EVA1.flueGasZone[4].tube.HT[4].geoPipe.isCylindric
EVA1.flueGasZone[4].tube.HT[4].geoPipe.A
EVA1.flueGasZone[4].tube.HT[4].diameterInner
EVA1.flueGasZone[4].tube.HT[4].steamQuality
EVA1.flueGasZone[4].tube.HT[4].dT
EVA1.flueGasZone[4].tube.HT[4].xdo
EVA1.flueGasZone[4].tube.HT[4].isSinglePhase
EVA1.flueGasZone[4].tube.HT[4].A
EVA1.flueGasZone[4].tube.HT[5].geoPipe.Nt
EVA1.flueGasZone[4].tube.HT[5].geoPipe.L
EVA1.flueGasZone[4].tube.HT[5].geoPipe.H
EVA1.flueGasZone[4].tube.HT[5].geoPipe.d_out
EVA1.flueGasZone[4].tube.HT[5].geoPipe.s
EVA1.flueGasZone[4].tube.HT[5].geoPipe.r
EVA1.flueGasZone[4].tube.HT[5].geoPipe.zeta_add
EVA1.flueGasZone[4].tube.HT[5].geoPipe.isCylindric
EVA1.flueGasZone[4].tube.HT[5].geoPipe.A
EVA1.flueGasZone[4].tube.HT[5].diameterInner
EVA1.flueGasZone[4].tube.HT[5].steamQuality
EVA1.flueGasZone[4].tube.HT[5].dT
EVA1.flueGasZone[4].tube.HT[5].xdo
EVA1.flueGasZone[4].tube.HT[5].isSinglePhase
EVA1.flueGasZone[4].tube.HT[5].A
EVA1.flueGasZone[4].heatTransfer.numberOfNodes
EVA1.flueGasZone[4].heatTransfer.lengthRe
EVA1.flueGasZone[4].heatTransfer.lengthNu
EVA1.flueGasZone[4].heatTransfer.ACrossFlow
EVA1.flueGasZone[4].heatTransfer.AHeatTransfer
EVA1.flueGasZone[4].heatTransfer.geoFGZ.pt
EVA1.flueGasZone[4].heatTransfer.geoFGZ.pl
EVA1.flueGasZone[4].heatTransfer.geoFGZ.Lw
EVA1.flueGasZone[4].heatTransfer.geoFGZ.Ld
EVA1.flueGasZone[4].heatTransfer.geoFGZ.Lh
EVA1.flueGasZone[4].heatTransfer.geoFGZ.Nr
EVA1.flueGasZone[4].heatTransfer.geoFGZ.staggered
EVA1.flueGasZone[4].heatTransfer.geoFins.finned
EVA1.flueGasZone[4].heatTransfer.geoFins.serrated
EVA1.flueGasZone[4].heatTransfer.geoFins.h
EVA1.flueGasZone[4].heatTransfer.geoFins.s
EVA1.flueGasZone[4].heatTransfer.geoFins.b
EVA1.flueGasZone[4].heatTransfer.geoFins.w
EVA1.flueGasZone[4].heatTransfer.geoFins.n
EVA1.flueGasZone[4].heatTransfer.geoPipe.Nt
EVA1.flueGasZone[4].heatTransfer.geoPipe.L
EVA1.flueGasZone[4].heatTransfer.geoPipe.H
EVA1.flueGasZone[4].heatTransfer.geoPipe.d_out
EVA1.flueGasZone[4].heatTransfer.geoPipe.s
EVA1.flueGasZone[4].heatTransfer.geoPipe.r
EVA1.flueGasZone[4].heatTransfer.geoPipe.zeta_add
EVA1.flueGasZone[4].heatTransfer.geoPipe.isCylindric
EVA1.flueGasZone[4].heatTransfer.geoPipe.A
EVA1.flueGasZone[4].heatTransfer.alpha_start
EVA1.flueGasZone[4].heatTransfer.state.p
EVA1.flueGasZone[4].heatTransfer.state.T
EVA1.flueGasZone[4].heatTransfer.state.X[1]
EVA1.flueGasZone[4].heatTransfer.state.X[2]
EVA1.flueGasZone[4].heatTransfer.state.X[3]
EVA1.flueGasZone[4].heatTransfer.state.X[4]
EVA1.flueGasZone[4].heatTransfer.state.X[5]
EVA1.flueGasZone[4].heatTransfer.state.X[6]
EVA1.flueGasZone[4].heatTransfer.Re
EVA1.flueGasZone[4].heatTransfer.Pr
EVA1.flueGasZone[4].heatTransfer.Nu[1]
EVA1.flueGasZone[4].heatTransfer.Nu[2]
EVA1.flueGasZone[4].heatTransfer.Nu[3]
EVA1.flueGasZone[4].heatTransfer.Nu[4]
EVA1.flueGasZone[4].heatTransfer.Nu[5]
EVA1.flueGasZone[4].heatTransfer.cp
EVA1.flueGasZone[4].heatTransfer.eta
EVA1.flueGasZone[4].heatTransfer.lambda
EVA1.flueGasZone[4].heatTransfer.Psi
EVA1.flueGasZone[4].heatTransfer.heatingSurfaceFactor_set
EVA1.flueGasZone[4].mediumGasOut.h
EVA1.flueGasZone[4].mediumGasOut.der(h)
EVA1.flueGasZone[4].mediumGasOut.d
EVA1.flueGasZone[4].mediumGasOut.X[1]
EVA1.flueGasZone[4].mediumGasOut.X[2]
EVA1.flueGasZone[4].mediumGasOut.X[3]
EVA1.flueGasZone[4].mediumGasOut.X[4]
EVA1.flueGasZone[4].mediumGasOut.X[5]
EVA1.flueGasZone[4].mediumGasOut.X[6]
EVA1.flueGasZone[4].mediumGasOut.u
EVA1.flueGasZone[4].mediumGasOut.R
EVA1.flueGasZone[4].mediumGasOut.MM
EVA1.flueGasZone[4].mediumGasOut.state.p
EVA1.flueGasZone[4].mediumGasOut.state.T
EVA1.flueGasZone[4].mediumGasOut.state.X[1]
EVA1.flueGasZone[4].mediumGasOut.state.X[2]
EVA1.flueGasZone[4].mediumGasOut.state.X[3]
EVA1.flueGasZone[4].mediumGasOut.state.X[4]
EVA1.flueGasZone[4].mediumGasOut.state.X[5]
EVA1.flueGasZone[4].mediumGasOut.state.X[6]
EVA1.flueGasZone[4].mediumGasOut.preferredMediumStates
EVA1.flueGasZone[4].mediumGasOut.standardOrderComponents
EVA1.flueGasZone[4].mediumGasOut.T_degC
EVA1.flueGasZone[4].mediumGasOut.p_bar
EVA1.flueGasZone[4].mediumGas.h
EVA1.flueGasZone[4].mediumGas.d
EVA1.flueGasZone[4].mediumGas.X[1]
EVA1.flueGasZone[4].mediumGas.X[2]
EVA1.flueGasZone[4].mediumGas.X[3]
EVA1.flueGasZone[4].mediumGas.X[4]
EVA1.flueGasZone[4].mediumGas.X[5]
EVA1.flueGasZone[4].mediumGas.X[6]
EVA1.flueGasZone[4].mediumGas.u
EVA1.flueGasZone[4].mediumGas.R
EVA1.flueGasZone[4].mediumGas.MM
EVA1.flueGasZone[4].mediumGas.state.p
EVA1.flueGasZone[4].mediumGas.state.T
EVA1.flueGasZone[4].mediumGas.state.X[1]
EVA1.flueGasZone[4].mediumGas.state.X[2]
EVA1.flueGasZone[4].mediumGas.state.X[3]
EVA1.flueGasZone[4].mediumGas.state.X[4]
EVA1.flueGasZone[4].mediumGas.state.X[5]
EVA1.flueGasZone[4].mediumGas.state.X[6]
EVA1.flueGasZone[4].mediumGas.preferredMediumStates
EVA1.flueGasZone[4].mediumGas.standardOrderComponents
EVA1.flueGasZone[4].mediumGas.T_degC
EVA1.flueGasZone[4].mediumGas.p_bar
EVA1.flueGasZone[4].mediumGasIn.d
EVA1.flueGasZone[4].mediumGasIn.X[1]
EVA1.flueGasZone[4].mediumGasIn.X[2]
EVA1.flueGasZone[4].mediumGasIn.X[3]
EVA1.flueGasZone[4].mediumGasIn.X[4]
EVA1.flueGasZone[4].mediumGasIn.X[5]
EVA1.flueGasZone[4].mediumGasIn.X[6]
EVA1.flueGasZone[4].mediumGasIn.u
EVA1.flueGasZone[4].mediumGasIn.R
EVA1.flueGasZone[4].mediumGasIn.MM
EVA1.flueGasZone[4].mediumGasIn.state.p
EVA1.flueGasZone[4].mediumGasIn.state.T
EVA1.flueGasZone[4].mediumGasIn.state.X[1]
EVA1.flueGasZone[4].mediumGasIn.state.X[2]
EVA1.flueGasZone[4].mediumGasIn.state.X[3]
EVA1.flueGasZone[4].mediumGasIn.state.X[4]
EVA1.flueGasZone[4].mediumGasIn.state.X[5]
EVA1.flueGasZone[4].mediumGasIn.state.X[6]
EVA1.flueGasZone[4].mediumGasIn.preferredMediumStates
EVA1.flueGasZone[4].mediumGasIn.standardOrderComponents
EVA1.flueGasZone[4].mediumGasIn.T_degC
EVA1.flueGasZone[4].mediumGasIn.p_bar
EVA1.flueGasZone[4].state_gas.X[1]
EVA1.flueGasZone[4].state_gas.X[2]
EVA1.flueGasZone[4].state_gas.X[3]
EVA1.flueGasZone[4].state_gas.X[4]
EVA1.flueGasZone[4].state_gas.X[5]
EVA1.flueGasZone[4].state_gas.X[6]
EVA1.flueGasZone[4].V_gas
EVA1.flueGasZone[4].deltaT[1]
EVA1.flueGasZone[4].deltaT[2]
EVA1.flueGasZone[4].deltaT[3]
EVA1.flueGasZone[4].deltaT[4]
EVA1.flueGasZone[4].deltaT[5]
EVA1.flueGasZone[4].T_start[1]
EVA1.flueGasZone[4].T_start[2]
EVA1.flueGasZone[4].T_start[3]
EVA1.flueGasZone[4].T_start[4]
EVA1.flueGasZone[4].T_start[5]
EVA1.flueGasZone[4].lengthCharacteristicRe
EVA1.flueGasZone[4].Ah
EVA1.flueGasZone[4].temperatureRate[1]
EVA1.flueGasZone[4].temperatureRate[2]
EVA1.flueGasZone[4].temperatureRate[3]
EVA1.flueGasZone[4].temperatureRate[4]
EVA1.flueGasZone[4].temperatureRate[5]
EVA1.flueGasZone[4].fins.pi
EVA1.flueGasZone[4].fins.numberOfNodes
EVA1.flueGasZone[4].fins.geoFins.finned
EVA1.flueGasZone[4].fins.geoFins.serrated
EVA1.flueGasZone[4].fins.geoFins.h
EVA1.flueGasZone[4].fins.geoFins.s
EVA1.flueGasZone[4].fins.geoFins.b
EVA1.flueGasZone[4].fins.geoFins.w
EVA1.flueGasZone[4].fins.geoFins.n
EVA1.flueGasZone[4].fins.geoPipe.Nt
EVA1.flueGasZone[4].fins.geoPipe.L
EVA1.flueGasZone[4].fins.geoPipe.H
EVA1.flueGasZone[4].fins.geoPipe.d_out
EVA1.flueGasZone[4].fins.geoPipe.s
EVA1.flueGasZone[4].fins.geoPipe.r
EVA1.flueGasZone[4].fins.geoPipe.zeta_add
EVA1.flueGasZone[4].fins.geoPipe.isCylindric
EVA1.flueGasZone[4].fins.geoPipe.A
EVA1.flueGasZone[4].fins.metal.cp
EVA1.flueGasZone[4].fins.metal.lambda
EVA1.flueGasZone[4].fins.metal.rho
EVA1.flueGasZone[4].fins.T_start[1]
EVA1.flueGasZone[4].fins.T_start[2]
EVA1.flueGasZone[4].fins.T_start[3]
EVA1.flueGasZone[4].fins.T_start[4]
EVA1.flueGasZone[4].fins.T_start[5]
EVA1.flueGasZone[4].fins.useDynamicEquations
EVA1.flueGasZone[4].fins.T[1]
EVA1.flueGasZone[4].fins.der(T[1])
EVA1.flueGasZone[4].fins.T[2]
EVA1.flueGasZone[4].fins.der(T[2])
EVA1.flueGasZone[4].fins.T[3]
EVA1.flueGasZone[4].fins.der(T[3])
EVA1.flueGasZone[4].fins.T[4]
EVA1.flueGasZone[4].fins.der(T[4])
EVA1.flueGasZone[4].fins.T[5]
EVA1.flueGasZone[4].fins.der(T[5])
EVA1.flueGasZone[4].fins.V
EVA1.flueGasZone[4].fins.M
EVA1.flueGasZone[4].fins.Cp
EVA1.flueGasZone[4].heatPortToGas.numberOfNodes
EVA1.flueGasZone[4].heatPortToGas.Q_flow[1]
EVA1.flueGasZone[4].heatPortToGas.Q_flow[2]
EVA1.flueGasZone[4].heatPortToGas.Q_flow[3]
EVA1.flueGasZone[4].heatPortToGas.Q_flow[4]
EVA1.flueGasZone[4].heatPortToGas.Q_flow[5]
EVA1.flueGasZone[5].pi
EVA1.flueGasZone[5].numberOfTubeNodes
EVA1.flueGasZone[5].numberOfWallLayers
EVA1.flueGasZone[5].hydraulicResistance_gas
EVA1.flueGasZone[5].delayInnerHeatTransfer
EVA1.flueGasZone[5].timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[5].m_flow_start
EVA1.flueGasZone[5].pIn_start
EVA1.flueGasZone[5].pOut_start
EVA1.flueGasZone[5].hIn_start
EVA1.flueGasZone[5].hOut_start
EVA1.flueGasZone[5].pGas_start
EVA1.flueGasZone[5].TGasIn_start
EVA1.flueGasZone[5].TGasOut_start
EVA1.flueGasZone[5].m_flowGas_start
EVA1.flueGasZone[5].initializeInletPressure
EVA1.flueGasZone[5].initializeSteadyStateEnthalpies
EVA1.flueGasZone[5].initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[5].useHeatInput
EVA1.flueGasZone[5].initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[5].TWall_start[1]
EVA1.flueGasZone[5].TWall_start[2]
EVA1.flueGasZone[5].TWall_start[3]
EVA1.flueGasZone[5].TWall_start[4]
EVA1.flueGasZone[5].TWall_start[5]
EVA1.flueGasZone[5].geoFGZ.pt
EVA1.flueGasZone[5].geoFGZ.pl
EVA1.flueGasZone[5].geoFGZ.Lw
EVA1.flueGasZone[5].geoFGZ.Ld
EVA1.flueGasZone[5].geoFGZ.Lh
EVA1.flueGasZone[5].geoFGZ.Nr
EVA1.flueGasZone[5].geoFGZ.staggered
EVA1.flueGasZone[5].geoFins.finned
EVA1.flueGasZone[5].geoFins.serrated
EVA1.flueGasZone[5].geoFins.h
EVA1.flueGasZone[5].geoFins.s
EVA1.flueGasZone[5].geoFins.b
EVA1.flueGasZone[5].geoFins.w
EVA1.flueGasZone[5].geoFins.n
EVA1.flueGasZone[5].geoPipe.Nt
EVA1.flueGasZone[5].geoPipe.L
EVA1.flueGasZone[5].geoPipe.H
EVA1.flueGasZone[5].geoPipe.d_out
EVA1.flueGasZone[5].geoPipe.s
EVA1.flueGasZone[5].geoPipe.r
EVA1.flueGasZone[5].geoPipe.zeta_add
EVA1.flueGasZone[5].geoPipe.isCylindric
EVA1.flueGasZone[5].geoPipe.A
EVA1.flueGasZone[5].metal.cp
EVA1.flueGasZone[5].metal.lambda
EVA1.flueGasZone[5].metal.rho
EVA1.flueGasZone[5].cleanliness
EVA1.flueGasZone[5].computeHeatLossInPercent
EVA1.flueGasZone[5].heatloss
EVA1.flueGasZone[5].kLossToAmbient
EVA1.flueGasZone[5].T_ambient
EVA1.flueGasZone[5].portGasIn.Xi_outflow[1]
EVA1.flueGasZone[5].portGasIn.Xi_outflow[2]
EVA1.flueGasZone[5].portGasIn.Xi_outflow[3]
EVA1.flueGasZone[5].portGasIn.Xi_outflow[4]
EVA1.flueGasZone[5].portGasIn.Xi_outflow[5]
EVA1.flueGasZone[5].portGasIn.Xi_outflow[6]
EVA1.flueGasZone[5].Q_flowToAmbient[1]
EVA1.flueGasZone[5].Q_flowToAmbient[2]
EVA1.flueGasZone[5].Q_flowToAmbient[3]
EVA1.flueGasZone[5].Q_flowToAmbient[4]
EVA1.flueGasZone[5].Q_flowToAmbient[5]
EVA1.flueGasZone[5].tube.hIn
EVA1.flueGasZone[5].tube.hOut
EVA1.flueGasZone[5].tube.preferredStates
EVA1.flueGasZone[5].tube.m_flow_start
EVA1.flueGasZone[5].tube.pIn_start
EVA1.flueGasZone[5].tube.pOut_start
EVA1.flueGasZone[5].tube.useTemperatureStartValue
EVA1.flueGasZone[5].tube.hIn_start
EVA1.flueGasZone[5].tube.hOut_start
EVA1.flueGasZone[5].tube.TIn_start
EVA1.flueGasZone[5].tube.TOut_start
EVA1.flueGasZone[5].tube.XIn_start[1]
EVA1.flueGasZone[5].tube.XOut_start[1]
EVA1.flueGasZone[5].tube.useSubstanceStorage
EVA1.flueGasZone[5].tube.useEnergyStorage
EVA1.flueGasZone[5].tube.dp
EVA1.flueGasZone[5].tube.state_from_a.phase
EVA1.flueGasZone[5].tube.state_from_a.h
EVA1.flueGasZone[5].tube.state_from_a.d
EVA1.flueGasZone[5].tube.state_from_a.T
EVA1.flueGasZone[5].tube.state_from_b.phase
EVA1.flueGasZone[5].tube.state_from_b.h
EVA1.flueGasZone[5].tube.state_from_b.d
EVA1.flueGasZone[5].tube.state_from_b.T
EVA1.flueGasZone[5].tube.g
EVA1.flueGasZone[5].tube.pi
EVA1.flueGasZone[5].tube.numberOfNodes
EVA1.flueGasZone[5].tube.geoPipe.Nt
EVA1.flueGasZone[5].tube.geoPipe.L
EVA1.flueGasZone[5].tube.geoPipe.H
EVA1.flueGasZone[5].tube.geoPipe.d_out
EVA1.flueGasZone[5].tube.geoPipe.s
EVA1.flueGasZone[5].tube.geoPipe.r
EVA1.flueGasZone[5].tube.geoPipe.zeta_add
EVA1.flueGasZone[5].tube.geoPipe.isCylindric
EVA1.flueGasZone[5].tube.geoPipe.A
EVA1.flueGasZone[5].tube.initializeInletPressure
EVA1.flueGasZone[5].tube.initializeSteadyStateEnthalpies
EVA1.flueGasZone[5].tube.initializeSteadyStateInletEnthalpy
EVA1.flueGasZone[5].tube.h_start[1]
EVA1.flueGasZone[5].tube.h_start[2]
EVA1.flueGasZone[5].tube.h_start[3]
EVA1.flueGasZone[5].tube.h_start[4]
EVA1.flueGasZone[5].tube.h_start[5]
EVA1.flueGasZone[5].tube.Q_flow_start[1]
EVA1.flueGasZone[5].tube.Q_flow_start[2]
EVA1.flueGasZone[5].tube.Q_flow_start[3]
EVA1.flueGasZone[5].tube.Q_flow_start[4]
EVA1.flueGasZone[5].tube.Q_flow_start[5]
EVA1.flueGasZone[5].tube.additionalVolume
EVA1.flueGasZone[5].tube.useDynamicMassBalance
EVA1.flueGasZone[5].tube.considerDynamicMomentum
EVA1.flueGasZone[5].tube.considerDynamicPressure
EVA1.flueGasZone[5].tube.heatedArea
EVA1.flueGasZone[5].tube.diameterInner
EVA1.flueGasZone[5].tube.dz
EVA1.flueGasZone[5].tube.V
EVA1.flueGasZone[5].tube.A
EVA1.flueGasZone[5].tube.VTotal
EVA1.flueGasZone[5].tube.VCell
EVA1.flueGasZone[5].tube.sinphi
EVA1.flueGasZone[5].tube.fluid[1].h
EVA1.flueGasZone[5].tube.fluid[1].der(h)
EVA1.flueGasZone[5].tube.fluid[1].X[1]
EVA1.flueGasZone[5].tube.fluid[1].u
EVA1.flueGasZone[5].tube.fluid[1].R
EVA1.flueGasZone[5].tube.fluid[1].MM
EVA1.flueGasZone[5].tube.fluid[1].preferredMediumStates
EVA1.flueGasZone[5].tube.fluid[1].standardOrderComponents
EVA1.flueGasZone[5].tube.fluid[1].T_degC
EVA1.flueGasZone[5].tube.fluid[1].p_bar
EVA1.flueGasZone[5].tube.fluid[1].sat.Tsat
EVA1.flueGasZone[5].tube.fluid[1].phase
EVA1.flueGasZone[5].tube.fluid[2].p
EVA1.flueGasZone[5].tube.fluid[2].der(p)
EVA1.flueGasZone[5].tube.fluid[2].h
EVA1.flueGasZone[5].tube.fluid[2].der(h)
EVA1.flueGasZone[5].tube.fluid[2].X[1]
EVA1.flueGasZone[5].tube.fluid[2].u
EVA1.flueGasZone[5].tube.fluid[2].R
EVA1.flueGasZone[5].tube.fluid[2].MM
EVA1.flueGasZone[5].tube.fluid[2].preferredMediumStates
EVA1.flueGasZone[5].tube.fluid[2].standardOrderComponents
EVA1.flueGasZone[5].tube.fluid[2].T_degC
EVA1.flueGasZone[5].tube.fluid[2].p_bar
EVA1.flueGasZone[5].tube.fluid[2].sat.Tsat
EVA1.flueGasZone[5].tube.fluid[2].phase
EVA1.flueGasZone[5].tube.fluid[3].h
EVA1.flueGasZone[5].tube.fluid[3].der(h)
EVA1.flueGasZone[5].tube.fluid[3].X[1]
EVA1.flueGasZone[5].tube.fluid[3].u
EVA1.flueGasZone[5].tube.fluid[3].R
EVA1.flueGasZone[5].tube.fluid[3].MM
EVA1.flueGasZone[5].tube.fluid[3].preferredMediumStates
EVA1.flueGasZone[5].tube.fluid[3].standardOrderComponents
EVA1.flueGasZone[5].tube.fluid[3].T_degC
EVA1.flueGasZone[5].tube.fluid[3].p_bar
EVA1.flueGasZone[5].tube.fluid[3].sat.Tsat
EVA1.flueGasZone[5].tube.fluid[3].phase
EVA1.flueGasZone[5].tube.fluid[4].h
EVA1.flueGasZone[5].tube.fluid[4].der(h)
EVA1.flueGasZone[5].tube.fluid[4].X[1]
EVA1.flueGasZone[5].tube.fluid[4].u
EVA1.flueGasZone[5].tube.fluid[4].R
EVA1.flueGasZone[5].tube.fluid[4].MM
EVA1.flueGasZone[5].tube.fluid[4].preferredMediumStates
EVA1.flueGasZone[5].tube.fluid[4].standardOrderComponents
EVA1.flueGasZone[5].tube.fluid[4].T_degC
EVA1.flueGasZone[5].tube.fluid[4].p_bar
EVA1.flueGasZone[5].tube.fluid[4].sat.Tsat
EVA1.flueGasZone[5].tube.fluid[4].phase
EVA1.flueGasZone[5].tube.fluid[5].h
EVA1.flueGasZone[5].tube.fluid[5].der(h)
EVA1.flueGasZone[5].tube.fluid[5].X[1]
EVA1.flueGasZone[5].tube.fluid[5].u
EVA1.flueGasZone[5].tube.fluid[5].R
EVA1.flueGasZone[5].tube.fluid[5].MM
EVA1.flueGasZone[5].tube.fluid[5].preferredMediumStates
EVA1.flueGasZone[5].tube.fluid[5].standardOrderComponents
EVA1.flueGasZone[5].tube.fluid[5].T_degC
EVA1.flueGasZone[5].tube.fluid[5].p_bar
EVA1.flueGasZone[5].tube.fluid[5].sat.Tsat
EVA1.flueGasZone[5].tube.fluid[5].phase
EVA1.flueGasZone[5].tube.m_flows[1]
EVA1.flueGasZone[5].tube.der(m_flows[1])
EVA1.flueGasZone[5].tube.d_av
EVA1.flueGasZone[5].tube.der(d_av)
EVA1.flueGasZone[5].tube.vol_av
EVA1.flueGasZone[5].tube.dpfric
EVA1.flueGasZone[5].tube.dphyd
EVA1.flueGasZone[5].tube.dpHyd_start
EVA1.flueGasZone[5].tube.dpFric_start
EVA1.flueGasZone[5].tube.T_start[1]
EVA1.flueGasZone[5].tube.T_start[2]
EVA1.flueGasZone[5].tube.T_start[3]
EVA1.flueGasZone[5].tube.T_start[4]
EVA1.flueGasZone[5].tube.T_start[5]
EVA1.flueGasZone[5].tube.d_start[1]
EVA1.flueGasZone[5].tube.d_start[2]
EVA1.flueGasZone[5].tube.d_start[3]
EVA1.flueGasZone[5].tube.d_start[4]
EVA1.flueGasZone[5].tube.d_start[5]
EVA1.flueGasZone[5].tube.q_start
EVA1.flueGasZone[5].tube.T[1]
EVA1.flueGasZone[5].tube.T[2]
EVA1.flueGasZone[5].tube.T[3]
EVA1.flueGasZone[5].tube.T[4]
EVA1.flueGasZone[5].tube.T[5]
EVA1.flueGasZone[5].tube.d[1]
EVA1.flueGasZone[5].tube.d[2]
EVA1.flueGasZone[5].tube.d[3]
EVA1.flueGasZone[5].tube.d[4]
EVA1.flueGasZone[5].tube.d[5]
EVA1.flueGasZone[5].tube.der(d[1])
EVA1.flueGasZone[5].tube.der(d[2])
EVA1.flueGasZone[5].tube.der(d[3])
EVA1.flueGasZone[5].tube.der(d[4])
EVA1.flueGasZone[5].tube.der(d[5])
EVA1.flueGasZone[5].tube.vol[1]
EVA1.flueGasZone[5].tube.vol[2]
EVA1.flueGasZone[5].tube.vol[3]
EVA1.flueGasZone[5].tube.vol[4]
EVA1.flueGasZone[5].tube.vol[5]
EVA1.flueGasZone[5].tube.cp[1]
EVA1.flueGasZone[5].tube.cp[2]
EVA1.flueGasZone[5].tube.cp[3]
EVA1.flueGasZone[5].tube.cp[4]
EVA1.flueGasZone[5].tube.cp[5]
EVA1.flueGasZone[5].tube.eta[1]
EVA1.flueGasZone[5].tube.eta[2]
EVA1.flueGasZone[5].tube.eta[3]
EVA1.flueGasZone[5].tube.eta[4]
EVA1.flueGasZone[5].tube.eta[5]
EVA1.flueGasZone[5].tube.lambda[1]
EVA1.flueGasZone[5].tube.lambda[2]
EVA1.flueGasZone[5].tube.lambda[3]
EVA1.flueGasZone[5].tube.lambda[4]
EVA1.flueGasZone[5].tube.lambda[5]
EVA1.flueGasZone[5].tube.E_flows[1]
EVA1.flueGasZone[5].tube.E_flows[2]
EVA1.flueGasZone[5].tube.E_flows[3]
EVA1.flueGasZone[5].tube.E_flows[4]
EVA1.flueGasZone[5].tube.E_flows[5]
EVA1.flueGasZone[5].tube.qHeating[1]
EVA1.flueGasZone[5].tube.qHeating[2]
EVA1.flueGasZone[5].tube.qHeating[3]
EVA1.flueGasZone[5].tube.qHeating[4]
EVA1.flueGasZone[5].tube.qHeating[5]
EVA1.flueGasZone[5].tube.useDelayedPressure
EVA1.flueGasZone[5].tube.timeDelayOfPressure
EVA1.flueGasZone[5].tube.hydM
EVA1.flueGasZone[5].tube.hydP
EVA1.flueGasZone[5].tube.friction.geoPipe.Nt
EVA1.flueGasZone[5].tube.friction.geoPipe.L
EVA1.flueGasZone[5].tube.friction.geoPipe.H
EVA1.flueGasZone[5].tube.friction.geoPipe.d_out
EVA1.flueGasZone[5].tube.friction.geoPipe.s
EVA1.flueGasZone[5].tube.friction.geoPipe.r
EVA1.flueGasZone[5].tube.friction.geoPipe.zeta_add
EVA1.flueGasZone[5].tube.friction.geoPipe.isCylindric
EVA1.flueGasZone[5].tube.friction.geoPipe.A
EVA1.flueGasZone[5].tube.friction.dz
EVA1.flueGasZone[5].tube.friction.lambda
EVA1.flueGasZone[5].tube.friction.steamQuality
EVA1.flueGasZone[5].tube.friction.xdo
EVA1.flueGasZone[5].tube.friction.isSinglePhase
EVA1.flueGasZone[5].tube.friction.m_flowLaminar
EVA1.flueGasZone[5].tube.friction.diameterInner
EVA1.flueGasZone[5].tube.friction.A
EVA1.flueGasZone[5].tube.friction.zeta
EVA1.flueGasZone[5].tube.TWall[1]
EVA1.flueGasZone[5].tube.TWall[2]
EVA1.flueGasZone[5].tube.TWall[3]
EVA1.flueGasZone[5].tube.TWall[4]
EVA1.flueGasZone[5].tube.TWall[5]
EVA1.flueGasZone[5].tube.delayInnerHeatTransfer
EVA1.flueGasZone[5].tube.timeDelayOfInnerHeatTransfer
EVA1.flueGasZone[5].tube.useHeatInput
EVA1.flueGasZone[5].tube.initializeWithZeroInnerHeatFlow
EVA1.flueGasZone[5].tube.alpha_start
EVA1.flueGasZone[5].tube.numberOfWallLayers
EVA1.flueGasZone[5].tube.TWall_start[1]
EVA1.flueGasZone[5].tube.TWall_start[2]
EVA1.flueGasZone[5].tube.TWall_start[3]
EVA1.flueGasZone[5].tube.TWall_start[4]
EVA1.flueGasZone[5].tube.TWall_start[5]
EVA1.flueGasZone[5].tube.metal.cp
EVA1.flueGasZone[5].tube.metal.lambda
EVA1.flueGasZone[5].tube.metal.rho
EVA1.flueGasZone[5].tube.stressCoeffofWall.eta
EVA1.flueGasZone[5].tube.stressCoeffofWall.alpha_t
EVA1.flueGasZone[5].tube.stressCoeffofWall.alpha_m
EVA1.flueGasZone[5].tube.stressCoeffofWall.beta
EVA1.flueGasZone[5].tube.stressCoeffofWall.E
EVA1.flueGasZone[5].tube.heatPort[1].Q_flow
EVA1.flueGasZone[5].tube.heatPort[2].Q_flow
EVA1.flueGasZone[5].tube.heatPort[3].Q_flow
EVA1.flueGasZone[5].tube.heatPort[4].Q_flow
EVA1.flueGasZone[5].tube.heatPort[5].Q_flow
EVA1.flueGasZone[5].tube.wall.numberOfNodes
EVA1.flueGasZone[5].tube.wall.numberOfWallLayers
EVA1.flueGasZone[5].tube.wall.assumePlainHeatTransfer
EVA1.flueGasZone[5].tube.wall.metal.cp
EVA1.flueGasZone[5].tube.wall.metal.lambda
EVA1.flueGasZone[5].tube.wall.metal.rho
EVA1.flueGasZone[5].tube.wall.numberOfParallelTubes
EVA1.flueGasZone[5].tube.wall.length
EVA1.flueGasZone[5].tube.wall.diameterInner
EVA1.flueGasZone[5].tube.wall.wallThickness
EVA1.flueGasZone[5].tube.wall.useDynamicEquations
EVA1.flueGasZone[5].tube.wall.considerConductivity
EVA1.flueGasZone[5].tube.wall.considerAxialHeatTransfer
EVA1.flueGasZone[5].tube.wall.T_start[1]
EVA1.flueGasZone[5].tube.wall.T_start[2]
EVA1.flueGasZone[5].tube.wall.T_start[3]
EVA1.flueGasZone[5].tube.wall.T_start[4]
EVA1.flueGasZone[5].tube.wall.T_start[5]
EVA1.flueGasZone[5].tube.wall.layer[1].pi
EVA1.flueGasZone[5].tube.wall.layer[1].numberOfNodes
EVA1.flueGasZone[5].tube.wall.layer[1].assumePlainHeatTransfer
EVA1.flueGasZone[5].tube.wall.layer[1].metal.cp
EVA1.flueGasZone[5].tube.wall.layer[1].metal.lambda
EVA1.flueGasZone[5].tube.wall.layer[1].metal.rho
EVA1.flueGasZone[5].tube.wall.layer[1].numberOfParallelTubes
EVA1.flueGasZone[5].tube.wall.layer[1].length
EVA1.flueGasZone[5].tube.wall.layer[1].diameterInner
EVA1.flueGasZone[5].tube.wall.layer[1].wallThickness
EVA1.flueGasZone[5].tube.wall.layer[1].useDynamicEquations
EVA1.flueGasZone[5].tube.wall.layer[1].considerConductivity
EVA1.flueGasZone[5].tube.wall.layer[1].considerAxialHeatTransfer
EVA1.flueGasZone[5].tube.wall.layer[1].T_start[1]
EVA1.flueGasZone[5].tube.wall.layer[1].T_start[2]
EVA1.flueGasZone[5].tube.wall.layer[1].T_start[3]
EVA1.flueGasZone[5].tube.wall.layer[1].T_start[4]
EVA1.flueGasZone[5].tube.wall.layer[1].T_start[5]
EVA1.flueGasZone[5].tube.wall.layer[1].port_int[1].Q_flow
EVA1.flueGasZone[5].tube.wall.layer[1].port_int[2].Q_flow
EVA1.flueGasZone[5].tube.wall.layer[1].port_int[3].Q_flow
EVA1.flueGasZone[5].tube.wall.layer[1].port_int[4].Q_flow
EVA1.flueGasZone[5].tube.wall.layer[1].port_int[5].Q_flow
EVA1.flueGasZone[5].tube.wall.layer[1].Am
EVA1.flueGasZone[5].tube.wall.layer[1].T[1]
EVA1.flueGasZone[5].tube.wall.layer[1].der(T[1])
EVA1.flueGasZone[5].tube.wall.layer[1].T[2]
EVA1.flueGasZone[5].tube.wall.layer[1].der(T[2])
EVA1.flueGasZone[5].tube.wall.layer[1].T[3]
EVA1.flueGasZone[5].tube.wall.layer[1].der(T[3])
EVA1.flueGasZone[5].tube.wall.layer[1].T[4]
EVA1.flueGasZone[5].tube.wall.layer[1].der(T[4])
EVA1.flueGasZone[5].tube.wall.layer[1].T[5]
EVA1.flueGasZone[5].tube.wall.layer[1].der(T[5])
EVA1.flueGasZone[5].tube.wall.layer[1].rint
EVA1.flueGasZone[5].tube.wall.layer[1].rext
EVA1.flueGasZone[5].tube.wall.layer[1].Tube_mass
EVA1.flueGasZone[5].tube.wall.layer[1].HeatCap
EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[1]
EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[2]
EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[3]
EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[4]
EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[5]
EVA1.flueGasZone[5].tube.wall.stress.eta
EVA1.flueGasZone[5].tube.wall.stress.alpha_t
EVA1.flueGasZone[5].tube.wall.stress.alpha_m
EVA1.flueGasZone[5].tube.wall.stress.beta
EVA1.flueGasZone[5].tube.wall.stress.E
EVA1.flueGasZone[5].tube.wall.dT
EVA1.flueGasZone[5].tube.wall.ft
EVA1.flueGasZone[5].tube.wall.fm
EVA1.flueGasZone[5].tube.wall.tension
EVA1.flueGasZone[5].tube.heatport.numberOfNodes
EVA1.flueGasZone[5].tube.alpha[1]
EVA1.flueGasZone[5].tube.alpha[2]
EVA1.flueGasZone[5].tube.alpha[3]
EVA1.flueGasZone[5].tube.alpha[4]
EVA1.flueGasZone[5].tube.alpha[5]
EVA1.flueGasZone[5].tube.HT[1].geoPipe.Nt
EVA1.flueGasZone[5].tube.HT[1].geoPipe.L
EVA1.flueGasZone[5].tube.HT[1].geoPipe.H
EVA1.flueGasZone[5].tube.HT[1].geoPipe.d_out
EVA1.flueGasZone[5].tube.HT[1].geoPipe.s
EVA1.flueGasZone[5].tube.HT[1].geoPipe.r
EVA1.flueGasZone[5].tube.HT[1].geoPipe.zeta_add
EVA1.flueGasZone[5].tube.HT[1].geoPipe.isCylindric
EVA1.flueGasZone[5].tube.HT[1].geoPipe.A
EVA1.flueGasZone[5].tube.HT[1].diameterInner
EVA1.flueGasZone[5].tube.HT[1].steamQuality
EVA1.flueGasZone[5].tube.HT[1].dT
EVA1.flueGasZone[5].tube.HT[1].xdo
EVA1.flueGasZone[5].tube.HT[1].isSinglePhase
EVA1.flueGasZone[5].tube.HT[1].A
EVA1.flueGasZone[5].tube.HT[2].geoPipe.Nt
EVA1.flueGasZone[5].tube.HT[2].geoPipe.L
EVA1.flueGasZone[5].tube.HT[2].geoPipe.H
EVA1.flueGasZone[5].tube.HT[2].geoPipe.d_out
EVA1.flueGasZone[5].tube.HT[2].geoPipe.s
EVA1.flueGasZone[5].tube.HT[2].geoPipe.r
EVA1.flueGasZone[5].tube.HT[2].geoPipe.zeta_add
EVA1.flueGasZone[5].tube.HT[2].geoPipe.isCylindric
EVA1.flueGasZone[5].tube.HT[2].geoPipe.A
EVA1.flueGasZone[5].tube.HT[2].diameterInner
EVA1.flueGasZone[5].tube.HT[2].steamQuality
EVA1.flueGasZone[5].tube.HT[2].dT
EVA1.flueGasZone[5].tube.HT[2].xdo
EVA1.flueGasZone[5].tube.HT[2].isSinglePhase
EVA1.flueGasZone[5].tube.HT[2].A
EVA1.flueGasZone[5].tube.HT[3].geoPipe.Nt
EVA1.flueGasZone[5].tube.HT[3].geoPipe.L
EVA1.flueGasZone[5].tube.HT[3].geoPipe.H
EVA1.flueGasZone[5].tube.HT[3].geoPipe.d_out
EVA1.flueGasZone[5].tube.HT[3].geoPipe.s
EVA1.flueGasZone[5].tube.HT[3].geoPipe.r
EVA1.flueGasZone[5].tube.HT[3].geoPipe.zeta_add
EVA1.flueGasZone[5].tube.HT[3].geoPipe.isCylindric
EVA1.flueGasZone[5].tube.HT[3].geoPipe.A
EVA1.flueGasZone[5].tube.HT[3].diameterInner
EVA1.flueGasZone[5].tube.HT[3].steamQuality
EVA1.flueGasZone[5].tube.HT[3].dT
EVA1.flueGasZone[5].tube.HT[3].xdo
EVA1.flueGasZone[5].tube.HT[3].isSinglePhase
EVA1.flueGasZone[5].tube.HT[3].A
EVA1.flueGasZone[5].tube.HT[4].geoPipe.Nt
EVA1.flueGasZone[5].tube.HT[4].geoPipe.L
EVA1.flueGasZone[5].tube.HT[4].geoPipe.H
EVA1.flueGasZone[5].tube.HT[4].geoPipe.d_out
EVA1.flueGasZone[5].tube.HT[4].geoPipe.s
EVA1.flueGasZone[5].tube.HT[4].geoPipe.r
EVA1.flueGasZone[5].tube.HT[4].geoPipe.zeta_add
EVA1.flueGasZone[5].tube.HT[4].geoPipe.isCylindric
EVA1.flueGasZone[5].tube.HT[4].geoPipe.A
EVA1.flueGasZone[5].tube.HT[4].diameterInner
EVA1.flueGasZone[5].tube.HT[4].steamQuality
EVA1.flueGasZone[5].tube.HT[4].dT
EVA1.flueGasZone[5].tube.HT[4].xdo
EVA1.flueGasZone[5].tube.HT[4].isSinglePhase
EVA1.flueGasZone[5].tube.HT[4].A
EVA1.flueGasZone[5].tube.HT[5].geoPipe.Nt
EVA1.flueGasZone[5].tube.HT[5].geoPipe.L
EVA1.flueGasZone[5].tube.HT[5].geoPipe.H
EVA1.flueGasZone[5].tube.HT[5].geoPipe.d_out
EVA1.flueGasZone[5].tube.HT[5].geoPipe.s
EVA1.flueGasZone[5].tube.HT[5].geoPipe.r
EVA1.flueGasZone[5].tube.HT[5].geoPipe.zeta_add
EVA1.flueGasZone[5].tube.HT[5].geoPipe.isCylindric
EVA1.flueGasZone[5].tube.HT[5].geoPipe.A
EVA1.flueGasZone[5].tube.HT[5].diameterInner
EVA1.flueGasZone[5].tube.HT[5].steamQuality
EVA1.flueGasZone[5].tube.HT[5].dT
EVA1.flueGasZone[5].tube.HT[5].xdo
EVA1.flueGasZone[5].tube.HT[5].isSinglePhase
EVA1.flueGasZone[5].tube.HT[5].A
EVA1.flueGasZone[5].heatTransfer.numberOfNodes
EVA1.flueGasZone[5].heatTransfer.lengthRe
EVA1.flueGasZone[5].heatTransfer.lengthNu
EVA1.flueGasZone[5].heatTransfer.ACrossFlow
EVA1.flueGasZone[5].heatTransfer.AHeatTransfer
EVA1.flueGasZone[5].heatTransfer.geoFGZ.pt
EVA1.flueGasZone[5].heatTransfer.geoFGZ.pl
EVA1.flueGasZone[5].heatTransfer.geoFGZ.Lw
EVA1.flueGasZone[5].heatTransfer.geoFGZ.Ld
EVA1.flueGasZone[5].heatTransfer.geoFGZ.Lh
EVA1.flueGasZone[5].heatTransfer.geoFGZ.Nr
EVA1.flueGasZone[5].heatTransfer.geoFGZ.staggered
EVA1.flueGasZone[5].heatTransfer.geoFins.finned
EVA1.flueGasZone[5].heatTransfer.geoFins.serrated
EVA1.flueGasZone[5].heatTransfer.geoFins.h
EVA1.flueGasZone[5].heatTransfer.geoFins.s
EVA1.flueGasZone[5].heatTransfer.geoFins.b
EVA1.flueGasZone[5].heatTransfer.geoFins.w
EVA1.flueGasZone[5].heatTransfer.geoFins.n
EVA1.flueGasZone[5].heatTransfer.geoPipe.Nt
EVA1.flueGasZone[5].heatTransfer.geoPipe.L
EVA1.flueGasZone[5].heatTransfer.geoPipe.H
EVA1.flueGasZone[5].heatTransfer.geoPipe.d_out
EVA1.flueGasZone[5].heatTransfer.geoPipe.s
EVA1.flueGasZone[5].heatTransfer.geoPipe.r
EVA1.flueGasZone[5].heatTransfer.geoPipe.zeta_add
EVA1.flueGasZone[5].heatTransfer.geoPipe.isCylindric
EVA1.flueGasZone[5].heatTransfer.geoPipe.A
EVA1.flueGasZone[5].heatTransfer.alpha_start
EVA1.flueGasZone[5].heatTransfer.state.p
EVA1.flueGasZone[5].heatTransfer.state.T
EVA1.flueGasZone[5].heatTransfer.state.X[1]
EVA1.flueGasZone[5].heatTransfer.state.X[2]
EVA1.flueGasZone[5].heatTransfer.state.X[3]
EVA1.flueGasZone[5].heatTransfer.state.X[4]
EVA1.flueGasZone[5].heatTransfer.state.X[5]
EVA1.flueGasZone[5].heatTransfer.state.X[6]
EVA1.flueGasZone[5].heatTransfer.Re
EVA1.flueGasZone[5].heatTransfer.Pr
EVA1.flueGasZone[5].heatTransfer.Nu[1]
EVA1.flueGasZone[5].heatTransfer.Nu[2]
EVA1.flueGasZone[5].heatTransfer.Nu[3]
EVA1.flueGasZone[5].heatTransfer.Nu[4]
EVA1.flueGasZone[5].heatTransfer.Nu[5]
EVA1.flueGasZone[5].heatTransfer.cp
EVA1.flueGasZone[5].heatTransfer.eta
EVA1.flueGasZone[5].heatTransfer.lambda
EVA1.flueGasZone[5].heatTransfer.Psi
EVA1.flueGasZone[5].heatTransfer.heatingSurfaceFactor_set
EVA1.flueGasZone[5].mediumGasOut.h
EVA1.flueGasZone[5].mediumGasOut.der(h)
EVA1.flueGasZone[5].mediumGasOut.d
EVA1.flueGasZone[5].mediumGasOut.X[1]
EVA1.flueGasZone[5].mediumGasOut.X[2]
EVA1.flueGasZone[5].mediumGasOut.X[3]
EVA1.flueGasZone[5].mediumGasOut.X[4]
EVA1.flueGasZone[5].mediumGasOut.X[5]
EVA1.flueGasZone[5].mediumGasOut.X[6]
EVA1.flueGasZone[5].mediumGasOut.u
EVA1.flueGasZone[5].mediumGasOut.R
EVA1.flueGasZone[5].mediumGasOut.MM
EVA1.flueGasZone[5].mediumGasOut.state.p
EVA1.flueGasZone[5].mediumGasOut.state.T
EVA1.flueGasZone[5].mediumGasOut.state.X[1]
EVA1.flueGasZone[5].mediumGasOut.state.X[2]
EVA1.flueGasZone[5].mediumGasOut.state.X[3]
EVA1.flueGasZone[5].mediumGasOut.state.X[4]
EVA1.flueGasZone[5].mediumGasOut.state.X[5]
EVA1.flueGasZone[5].mediumGasOut.state.X[6]
EVA1.flueGasZone[5].mediumGasOut.preferredMediumStates
EVA1.flueGasZone[5].mediumGasOut.standardOrderComponents
EVA1.flueGasZone[5].mediumGasOut.T_degC
EVA1.flueGasZone[5].mediumGasOut.p_bar
EVA1.flueGasZone[5].mediumGas.h
EVA1.flueGasZone[5].mediumGas.d
EVA1.flueGasZone[5].mediumGas.X[1]
EVA1.flueGasZone[5].mediumGas.X[2]
EVA1.flueGasZone[5].mediumGas.X[3]
EVA1.flueGasZone[5].mediumGas.X[4]
EVA1.flueGasZone[5].mediumGas.X[5]
EVA1.flueGasZone[5].mediumGas.X[6]
EVA1.flueGasZone[5].mediumGas.u
EVA1.flueGasZone[5].mediumGas.R
EVA1.flueGasZone[5].mediumGas.MM
EVA1.flueGasZone[5].mediumGas.state.p
EVA1.flueGasZone[5].mediumGas.state.T
EVA1.flueGasZone[5].mediumGas.state.X[1]
EVA1.flueGasZone[5].mediumGas.state.X[2]
EVA1.flueGasZone[5].mediumGas.state.X[3]
EVA1.flueGasZone[5].mediumGas.state.X[4]
EVA1.flueGasZone[5].mediumGas.state.X[5]
EVA1.flueGasZone[5].mediumGas.state.X[6]
EVA1.flueGasZone[5].mediumGas.preferredMediumStates
EVA1.flueGasZone[5].mediumGas.standardOrderComponents
EVA1.flueGasZone[5].mediumGas.T_degC
EVA1.flueGasZone[5].mediumGas.p_bar
EVA1.flueGasZone[5].mediumGasIn.d
EVA1.flueGasZone[5].mediumGasIn.X[1]
EVA1.flueGasZone[5].mediumGasIn.X[2]
EVA1.flueGasZone[5].mediumGasIn.X[3]
EVA1.flueGasZone[5].mediumGasIn.X[4]
EVA1.flueGasZone[5].mediumGasIn.X[5]
EVA1.flueGasZone[5].mediumGasIn.X[6]
EVA1.flueGasZone[5].mediumGasIn.u
EVA1.flueGasZone[5].mediumGasIn.R
EVA1.flueGasZone[5].mediumGasIn.MM
EVA1.flueGasZone[5].mediumGasIn.state.p
EVA1.flueGasZone[5].mediumGasIn.state.T
EVA1.flueGasZone[5].mediumGasIn.state.X[1]
EVA1.flueGasZone[5].mediumGasIn.state.X[2]
EVA1.flueGasZone[5].mediumGasIn.state.X[3]
EVA1.flueGasZone[5].mediumGasIn.state.X[4]
EVA1.flueGasZone[5].mediumGasIn.state.X[5]
EVA1.flueGasZone[5].mediumGasIn.state.X[6]
EVA1.flueGasZone[5].mediumGasIn.preferredMediumStates
EVA1.flueGasZone[5].mediumGasIn.standardOrderComponents
EVA1.flueGasZone[5].mediumGasIn.T_degC
EVA1.flueGasZone[5].mediumGasIn.p_bar
EVA1.flueGasZone[5].state_gas.X[1]
EVA1.flueGasZone[5].state_gas.X[2]
EVA1.flueGasZone[5].state_gas.X[3]
EVA1.flueGasZone[5].state_gas.X[4]
EVA1.flueGasZone[5].state_gas.X[5]
EVA1.flueGasZone[5].state_gas.X[6]
EVA1.flueGasZone[5].V_gas
EVA1.flueGasZone[5].deltaT[1]
EVA1.flueGasZone[5].deltaT[2]
EVA1.flueGasZone[5].deltaT[3]
EVA1.flueGasZone[5].deltaT[4]
EVA1.flueGasZone[5].deltaT[5]
EVA1.flueGasZone[5].T_start[1]
EVA1.flueGasZone[5].T_start[2]
EVA1.flueGasZone[5].T_start[3]
EVA1.flueGasZone[5].T_start[4]
EVA1.flueGasZone[5].T_start[5]
EVA1.flueGasZone[5].lengthCharacteristicRe
EVA1.flueGasZone[5].Ah
EVA1.flueGasZone[5].temperatureRate[1]
EVA1.flueGasZone[5].temperatureRate[2]
EVA1.flueGasZone[5].temperatureRate[3]
EVA1.flueGasZone[5].temperatureRate[4]
EVA1.flueGasZone[5].temperatureRate[5]
EVA1.flueGasZone[5].fins.pi
EVA1.flueGasZone[5].fins.numberOfNodes
EVA1.flueGasZone[5].fins.geoFins.finned
EVA1.flueGasZone[5].fins.geoFins.serrated
EVA1.flueGasZone[5].fins.geoFins.h
EVA1.flueGasZone[5].fins.geoFins.s
EVA1.flueGasZone[5].fins.geoFins.b
EVA1.flueGasZone[5].fins.geoFins.w
EVA1.flueGasZone[5].fins.geoFins.n
EVA1.flueGasZone[5].fins.geoPipe.Nt
EVA1.flueGasZone[5].fins.geoPipe.L
EVA1.flueGasZone[5].fins.geoPipe.H
EVA1.flueGasZone[5].fins.geoPipe.d_out
EVA1.flueGasZone[5].fins.geoPipe.s
EVA1.flueGasZone[5].fins.geoPipe.r
EVA1.flueGasZone[5].fins.geoPipe.zeta_add
EVA1.flueGasZone[5].fins.geoPipe.isCylindric
EVA1.flueGasZone[5].fins.geoPipe.A
EVA1.flueGasZone[5].fins.metal.cp
EVA1.flueGasZone[5].fins.metal.lambda
EVA1.flueGasZone[5].fins.metal.rho
EVA1.flueGasZone[5].fins.T_start[1]
EVA1.flueGasZone[5].fins.T_start[2]
EVA1.flueGasZone[5].fins.T_start[3]
EVA1.flueGasZone[5].fins.T_start[4]
EVA1.flueGasZone[5].fins.T_start[5]
EVA1.flueGasZone[5].fins.useDynamicEquations
EVA1.flueGasZone[5].fins.T[1]
EVA1.flueGasZone[5].fins.der(T[1])
EVA1.flueGasZone[5].fins.T[2]
EVA1.flueGasZone[5].fins.der(T[2])
EVA1.flueGasZone[5].fins.T[3]
EVA1.flueGasZone[5].fins.der(T[3])
EVA1.flueGasZone[5].fins.T[4]
EVA1.flueGasZone[5].fins.der(T[4])
EVA1.flueGasZone[5].fins.T[5]
EVA1.flueGasZone[5].fins.der(T[5])
EVA1.flueGasZone[5].fins.V
EVA1.flueGasZone[5].fins.M
EVA1.flueGasZone[5].fins.Cp
EVA1.flueGasZone[5].heatPortToGas.numberOfNodes
EVA1.flueGasZone[5].heatPortToGas.Q_flow[1]
EVA1.flueGasZone[5].heatPortToGas.Q_flow[2]
EVA1.flueGasZone[5].heatPortToGas.Q_flow[3]
EVA1.flueGasZone[5].heatPortToGas.Q_flow[4]
EVA1.flueGasZone[5].heatPortToGas.Q_flow[5]
EVA1.splitter.numberOfPortsSplit
EVA1.splitter.p_start
EVA1.splitter.useTemperatureStartValue
EVA1.splitter.h_start
EVA1.splitter.T_start
EVA1.splitter.X_start[1]
EVA1.splitter.m_flow_start
EVA1.splitter.m_flowOpposite_start[1]
EVA1.splitter.m_flowOpposite_start[2]
EVA1.splitter.m_flowOpposite_start[3]
EVA1.splitter.m_flowOpposite_start[4]
EVA1.splitter.m_flowOpposite_start[5]
EVA1.splitter.initializeSteadyMassBalance
EVA1.splitter.initializeSteadyEnthalpyBalance
EVA1.splitter.initializeFixedPressure
EVA1.splitter.initializeFixedEnthalpy
EVA1.splitter.hasVolume
EVA1.splitter.V
EVA1.splitter.hasPressureDrop
EVA1.splitter.resistanceHydraulic
EVA1.splitter.portsSplit[1].m_flow
EVA1.splitter.portsSplit[1].p
EVA1.splitter.portsSplit[2].m_flow
EVA1.splitter.portsSplit[2].p
EVA1.splitter.portsSplit[3].m_flow
EVA1.splitter.portsSplit[3].p
EVA1.splitter.portsSplit[4].m_flow
EVA1.splitter.portsSplit[4].p
EVA1.splitter.portsSplit[5].m_flow
EVA1.splitter.portsSplit[5].p
EVA1.splitter.medium.p
EVA1.splitter.medium.h
EVA1.splitter.medium.d
EVA1.splitter.medium.T
EVA1.splitter.medium.X[1]
EVA1.splitter.medium.u
EVA1.splitter.medium.R
EVA1.splitter.medium.MM
EVA1.splitter.medium.preferredMediumStates
EVA1.splitter.medium.standardOrderComponents
EVA1.splitter.medium.T_degC
EVA1.splitter.medium.p_bar
EVA1.splitter.medium.sat.Tsat
EVA1.splitter.medium.phase
EVA1.splitter.m_flowFromPortMix
EVA1.splitter.m_flowFromPortsSplit[1]
EVA1.splitter.m_flowFromPortsSplit[2]
EVA1.splitter.m_flowFromPortsSplit[3]
EVA1.splitter.m_flowFromPortsSplit[4]
EVA1.splitter.m_flowFromPortsSplit[5]
EVA1.mixer.numberOfPortsSplit
EVA1.mixer.p_start
EVA1.mixer.useTemperatureStartValue
EVA1.mixer.h_start
EVA1.mixer.T_start
EVA1.mixer.X_start[1]
EVA1.mixer.m_flow_start
EVA1.mixer.m_flowOpposite_start[1]
EVA1.mixer.m_flowOpposite_start[2]
EVA1.mixer.m_flowOpposite_start[3]
EVA1.mixer.m_flowOpposite_start[4]
EVA1.mixer.m_flowOpposite_start[5]
EVA1.mixer.initializeSteadyMassBalance
EVA1.mixer.initializeSteadyEnthalpyBalance
EVA1.mixer.initializeFixedPressure
EVA1.mixer.initializeFixedEnthalpy
EVA1.mixer.hasVolume
EVA1.mixer.V
EVA1.mixer.hasPressureDrop
EVA1.mixer.resistanceHydraulic
EVA1.mixer.portsSplit[1].m_flow
EVA1.mixer.portsSplit[2].m_flow
EVA1.mixer.portsSplit[3].m_flow
EVA1.mixer.portsSplit[4].m_flow
EVA1.mixer.portsSplit[5].m_flow
EVA1.mixer.medium.h
EVA1.mixer.medium.d
EVA1.mixer.medium.T
EVA1.mixer.medium.X[1]
EVA1.mixer.medium.u
EVA1.mixer.medium.R
EVA1.mixer.medium.MM
EVA1.mixer.medium.preferredMediumStates
EVA1.mixer.medium.standardOrderComponents
EVA1.mixer.medium.T_degC
EVA1.mixer.medium.p_bar
EVA1.mixer.medium.sat.Tsat
EVA1.mixer.medium.phase
EVA1.mixer.m_flowFromPortMix
EVA1.mixer.m_flowFromPortsSplit[1]
EVA1.mixer.m_flowFromPortsSplit[2]
EVA1.mixer.m_flowFromPortsSplit[3]
EVA1.mixer.m_flowFromPortsSplit[4]
EVA1.mixer.m_flowFromPortsSplit[5]
EVA1.portGasOut.Xi_outflow[1]
EVA1.portGasOut.Xi_outflow[2]
EVA1.portGasOut.Xi_outflow[3]
EVA1.portGasOut.Xi_outflow[4]
EVA1.portGasOut.Xi_outflow[5]
EVA1.portGasOut.Xi_outflow[6]
EVA2.numberOfTubeLayers
EVA2.numberOfCellsPerLayer
EVA2.numberOfWallLayers
EVA2.hydraulicResistanceGasFLow
EVA2.geoFGZ.pt
EVA2.geoFGZ.pl
EVA2.geoFGZ.Lw
EVA2.geoFGZ.Ld
EVA2.geoFGZ.Lh
EVA2.geoFGZ.Nr
EVA2.geoFGZ.staggered
EVA2.geoFins.finned
EVA2.geoFins.serrated
EVA2.geoFins.h
EVA2.geoFins.s
EVA2.geoFins.b
EVA2.geoFins.w
EVA2.geoFins.n
EVA2.propertiesMetal.cp
EVA2.propertiesMetal.lambda
EVA2.propertiesMetal.rho
EVA2.geoPipe.Nt
EVA2.geoPipe.L
EVA2.geoPipe.H
EVA2.geoPipe.d_out
EVA2.geoPipe.s
EVA2.geoPipe.r
EVA2.geoPipe.zeta_add
EVA2.geoPipe.isCylindric
EVA2.geoPipe.A
EVA2.delayInnerHeatTransfer
EVA2.timeDelayOfInnerHeatTransfer
EVA2.cleanlinessFactor
EVA2.heatloss
EVA2.hasMixerVolume
EVA2.V
EVA2.hydraulicResistanceSplitterOut
EVA2.m_flowGas_start
EVA2.TGasIn_start
EVA2.TGasOut_start
EVA2.m_flow_start
EVA2.pIn_start
EVA2.pOut_start
EVA2.hIn_start
EVA2.hOut_start
EVA2.initializeInletPressure
EVA2.initializeSteadyStateEnthalpies
EVA2.initializeSteadyStateInletEnthalpy
EVA2.useHeatInput
EVA2.initializeWithZeroInnerHeatFlow
EVA2.flueGasZone[1].pi
EVA2.flueGasZone[1].numberOfTubeNodes
EVA2.flueGasZone[1].numberOfWallLayers
EVA2.flueGasZone[1].hydraulicResistance_gas
EVA2.flueGasZone[1].delayInnerHeatTransfer
EVA2.flueGasZone[1].timeDelayOfInnerHeatTransfer
EVA2.flueGasZone[1].m_flow_start
EVA2.flueGasZone[1].pIn_start
EVA2.flueGasZone[1].pOut_start
EVA2.flueGasZone[1].hIn_start
EVA2.flueGasZone[1].hOut_start
EVA2.flueGasZone[1].pGas_start
EVA2.flueGasZone[1].TGasIn_start
EVA2.flueGasZone[1].TGasOut_start
EVA2.flueGasZone[1].m_flowGas_start
EVA2.flueGasZone[1].initializeInletPressure
EVA2.flueGasZone[1].initializeSteadyStateEnthalpies
EVA2.flueGasZone[1].initializeSteadyStateInletEnthalpy
EVA2.flueGasZone[1].useHeatInput
EVA2.flueGasZone[1].initializeWithZeroInnerHeatFlow
EVA2.flueGasZone[1].TWall_start[1]
EVA2.flueGasZone[1].TWall_start[2]
EVA2.flueGasZone[1].TWall_start[3]
EVA2.flueGasZone[1].TWall_start[4]
EVA2.flueGasZone[1].TWall_start[5]
EVA2.flueGasZone[1].geoFGZ.pt
EVA2.flueGasZone[1].geoFGZ.pl
EVA2.flueGasZone[1].geoFGZ.Lw
EVA2.flueGasZone[1].geoFGZ.Ld
EVA2.flueGasZone[1].geoFGZ.Lh
EVA2.flueGasZone[1].geoFGZ.Nr
EVA2.flueGasZone[1].geoFGZ.staggered
EVA2.flueGasZone[1].geoFins.finned
EVA2.flueGasZone[1].geoFins.serrated
EVA2.flueGasZone[1].geoFins.h
EVA2.flueGasZone[1].geoFins.s
EVA2.flueGasZone[1].geoFins.b
EVA2.flueGasZone[1].geoFins.w
EVA2.flueGasZone[1].geoFins.n
EVA2.flueGasZone[1].geoPipe.Nt
EVA2.flueGasZone[1].geoPipe.L
EVA2.flueGasZone[1].geoPipe.H
EVA2.flueGasZone[1].geoPipe.d_out
EVA2.flueGasZone[1].geoPipe.s
EVA2.flueGasZone[1].geoPipe.r
EVA2.flueGasZone[1].geoPipe.zeta_add
EVA2.flueGasZone[1].geoPipe.isCylindric
EVA2.flueGasZone[1].geoPipe.A
EVA2.flueGasZone[1].metal.cp
EVA2.flueGasZone[1].metal.lambda
EVA2.flueGasZone[1].metal.rho
EVA2.flueGasZone[1].cleanliness
EVA2.flueGasZone[1].computeHeatLossInPercent
EVA2.flueGasZone[1].heatloss
EVA2.flueGasZone[1].kLossToAmbient
EVA2.flueGasZone[1].T_ambient
EVA2.flueGasZone[1].Q_flowToAmbient[1]
EVA2.flueGasZone[1].Q_flowToAmbient[2]
EVA2.flueGasZone[1].Q_flowToAmbient[3]
EVA2.flueGasZone[1].Q_flowToAmbient[4]
EVA2.flueGasZone[1].Q_flowToAmbient[5]
EVA2.flueGasZone[1].tube.hIn
EVA2.flueGasZone[1].tube.hOut
EVA2.flueGasZone[1].tube.preferredStates
EVA2.flueGasZone[1].tube.m_flow_start
EVA2.flueGasZone[1].tube.pIn_start
EVA2.flueGasZone[1].tube.pOut_start
EVA2.flueGasZone[1].tube.useTemperatureStartValue
EVA2.flueGasZone[1].tube.hIn_start
EVA2.flueGasZone[1].tube.hOut_start
EVA2.flueGasZone[1].tube.TIn_start
EVA2.flueGasZone[1].tube.TOut_start
EVA2.flueGasZone[1].tube.XIn_start[1]
EVA2.flueGasZone[1].tube.XOut_start[1]
EVA2.flueGasZone[1].tube.useSubstanceStorage
EVA2.flueGasZone[1].tube.useEnergyStorage
EVA2.flueGasZone[1].tube.dp
EVA2.flueGasZone[1].tube.state_from_a.phase
EVA2.flueGasZone[1].tube.state_from_a.h
EVA2.flueGasZone[1].tube.state_from_a.d
EVA2.flueGasZone[1].tube.state_from_a.T
EVA2.flueGasZone[1].tube.state_from_b.phase
EVA2.flueGasZone[1].tube.state_from_b.h
EVA2.flueGasZone[1].tube.state_from_b.d
EVA2.flueGasZone[1].tube.state_from_b.T
EVA2.flueGasZone[1].tube.g
EVA2.flueGasZone[1].tube.pi
EVA2.flueGasZone[1].tube.numberOfNodes
EVA2.flueGasZone[1].tube.geoPipe.Nt
EVA2.flueGasZone[1].tube.geoPipe.L
EVA2.flueGasZone[1].tube.geoPipe.H
EVA2.flueGasZone[1].tube.geoPipe.d_out
EVA2.flueGasZone[1].tube.geoPipe.s
EVA2.flueGasZone[1].tube.geoPipe.r
EVA2.flueGasZone[1].tube.geoPipe.zeta_add
EVA2.flueGasZone[1].tube.geoPipe.isCylindric
EVA2.flueGasZone[1].tube.geoPipe.A
EVA2.flueGasZone[1].tube.initializeInletPressure
EVA2.flueGasZone[1].tube.initializeSteadyStateEnthalpies
EVA2.flueGasZone[1].tube.initializeSteadyStateInletEnthalpy
EVA2.flueGasZone[1].tube.h_start[1]
EVA2.flueGasZone[1].tube.h_start[2]
EVA2.flueGasZone[1].tube.h_start[3]
EVA2.flueGasZone[1].tube.h_start[4]
EVA2.flueGasZone[1].tube.h_start[5]
EVA2.flueGasZone[1].tube.Q_flow_start[1]
EVA2.flueGasZone[1].tube.Q_flow_start[2]
EVA2.flueGasZone[1].tube.Q_flow_start[3]
EVA2.flueGasZone[1].tube.Q_flow_start[4]
EVA2.flueGasZone[1].tube.Q_flow_start[5]
EVA2.flueGasZone[1].tube.additionalVolume
EVA2.flueGasZone[1].tube.useDynamicMassBalance
EVA2.flueGasZone[1].tube.considerDynamicMomentum
EVA2.flueGasZone[1].tube.considerDynamicPressure
EVA2.flueGasZone[1].tube.heatedArea
EVA2.flueGasZone[1].tube.diameterInner
EVA2.flueGasZone[1].tube.dz
EVA2.flueGasZone[1].tube.V
EVA2.flueGasZone[1].tube.A
EVA2.flueGasZone[1].tube.VTotal
EVA2.flueGasZone[1].tube.VCell
EVA2.flueGasZone[1].tube.sinphi
EVA2.flueGasZone[1].tube.fluid[1].h
EVA2.flueGasZone[1].tube.fluid[1].der(h)
EVA2.flueGasZone[1].tube.fluid[1].X[1]
EVA2.flueGasZone[1].tube.fluid[1].u
EVA2.flueGasZone[1].tube.fluid[1].R
EVA2.flueGasZone[1].tube.fluid[1].MM
EVA2.flueGasZone[1].tube.fluid[1].preferredMediumStates
EVA2.flueGasZone[1].tube.fluid[1].standardOrderComponents
EVA2.flueGasZone[1].tube.fluid[1].T_degC
EVA2.flueGasZone[1].tube.fluid[1].p_bar
EVA2.flueGasZone[1].tube.fluid[1].sat.Tsat
EVA2.flueGasZone[1].tube.fluid[1].phase
EVA2.flueGasZone[1].tube.fluid[2].p
EVA2.flueGasZone[1].tube.fluid[2].der(p)
EVA2.flueGasZone[1].tube.fluid[2].h
EVA2.flueGasZone[1].tube.fluid[2].der(h)
EVA2.flueGasZone[1].tube.fluid[2].X[1]
EVA2.flueGasZone[1].tube.fluid[2].u
EVA2.flueGasZone[1].tube.fluid[2].R
EVA2.flueGasZone[1].tube.fluid[2].MM
EVA2.flueGasZone[1].tube.fluid[2].preferredMediumStates
EVA2.flueGasZone[1].tube.fluid[2].standardOrderComponents
EVA2.flueGasZone[1].tube.fluid[2].T_degC
EVA2.flueGasZone[1].tube.fluid[2].p_bar
EVA2.flueGasZone[1].tube.fluid[2].sat.Tsat
EVA2.flueGasZone[1].tube.fluid[2].phase
EVA2.flueGasZone[1].tube.fluid[3].h
EVA2.flueGasZone[1].tube.fluid[3].der(h)
EVA2.flueGasZone[1].tube.fluid[3].X[1]
EVA2.flueGasZone[1].tube.fluid[3].u
EVA2.flueGasZone[1].tube.fluid[3].R
EVA2.flueGasZone[1].tube.fluid[3].MM
EVA2.flueGasZone[1].tube.fluid[3].preferredMediumStates
EVA2.flueGasZone[1].tube.fluid[3].standardOrderComponents
EVA2.flueGasZone[1].tube.fluid[3].T_degC
EVA2.flueGasZone[1].tube.fluid[3].p_bar
EVA2.flueGasZone[1].tube.fluid[3].sat.Tsat
EVA2.flueGasZone[1].tube.fluid[3].phase
EVA2.flueGasZone[1].tube.fluid[4].h
EVA2.flueGasZone[1].tube.fluid[4].der(h)
EVA2.flueGasZone[1].tube.fluid[4].X[1]
EVA2.flueGasZone[1].tube.fluid[4].u
EVA2.flueGasZone[1].tube.fluid[4].R
EVA2.flueGasZone[1].tube.fluid[4].MM
EVA2.flueGasZone[1].tube.fluid[4].preferredMediumStates
EVA2.flueGasZone[1].tube.fluid[4].standardOrderComponents
EVA2.flueGasZone[1].tube.fluid[4].T_degC
EVA2.flueGasZone[1].tube.fluid[4].p_bar
EVA2.flueGasZone[1].tube.fluid[4].sat.Tsat
EVA2.flueGasZone[1].tube.fluid[4].phase
EVA2.flueGasZone[1].tube.fluid[5].h
EVA2.flueGasZone[1].tube.fluid[5].der(h)
EVA2.flueGasZone[1].tube.fluid[5].X[1]
EVA2.flueGasZone[1].tube.fluid[5].u
EVA2.flueGasZone[1].tube.fluid[5].R
EVA2.flueGasZone[1].tube.fluid[5].MM
EVA2.flueGasZone[1].tube.fluid[5].preferredMediumStates
EVA2.flueGasZone[1].tube.fluid[5].standardOrderComponents
EVA2.flueGasZone[1].tube.fluid[5].T_degC
EVA2.flueGasZone[1].tube.fluid[5].p_bar
EVA2.flueGasZone[1].tube.fluid[5].sat.Tsat
EVA2.flueGasZone[1].tube.fluid[5].phase
EVA2.flueGasZone[1].tube.m_flows[1]
EVA2.flueGasZone[1].tube.der(m_flows[1])
EVA2.flueGasZone[1].tube.d_av
EVA2.flueGasZone[1].tube.der(d_av)
EVA2.flueGasZone[1].tube.vol_av
EVA2.flueGasZone[1].tube.dpfric
EVA2.flueGasZone[1].tube.dphyd
EVA2.flueGasZone[1].tube.dpHyd_start
EVA2.flueGasZone[1].tube.dpFric_start
EVA2.flueGasZone[1].tube.T_start[1]
EVA2.flueGasZone[1].tube.T_start[2]
EVA2.flueGasZone[1].tube.T_start[3]
EVA2.flueGasZone[1].tube.T_start[4]
EVA2.flueGasZone[1].tube.T_start[5]
EVA2.flueGasZone[1].tube.d_start[1]
EVA2.flueGasZone[1].tube.d_start[2]
EVA2.flueGasZone[1].tube.d_start[3]
EVA2.flueGasZone[1].tube.d_start[4]
EVA2.flueGasZone[1].tube.d_start[5]
EVA2.flueGasZone[1].tube.q_start
EVA2.flueGasZone[1].tube.T[1]
EVA2.flueGasZone[1].tube.T[2]
EVA2.flueGasZone[1].tube.T[3]
EVA2.flueGasZone[1].tube.T[4]
EVA2.flueGasZone[1].tube.T[5]
EVA2.flueGasZone[1].tube.d[1]
EVA2.flueGasZone[1].tube.d[2]
EVA2.flueGasZone[1].tube.d[3]
EVA2.flueGasZone[1].tube.d[4]
EVA2.flueGasZone[1].tube.d[5]
EVA2.flueGasZone[1].tube.der(d[1])
EVA2.flueGasZone[1].tube.der(d[2])
EVA2.flueGasZone[1].tube.der(d[3])
EVA2.flueGasZone[1].tube.der(d[4])
EVA2.flueGasZone[1].tube.der(d[5])
EVA2.flueGasZone[1].tube.vol[1]
EVA2.flueGasZone[1].tube.vol[2]
EVA2.flueGasZone[1].tube.vol[3]
EVA2.flueGasZone[1].tube.vol[4]
EVA2.flueGasZone[1].tube.vol[5]
EVA2.flueGasZone[1].tube.cp[1]
EVA2.flueGasZone[1].tube.cp[2]
EVA2.flueGasZone[1].tube.cp[3]
EVA2.flueGasZone[1].tube.cp[4]
EVA2.flueGasZone[1].tube.cp[5]
EVA2.flueGasZone[1].tube.eta[1]
EVA2.flueGasZone[1].tube.eta[2]
EVA2.flueGasZone[1].tube.eta[3]
EVA2.flueGasZone[1].tube.eta[4]
EVA2.flueGasZone[1].tube.eta[5]
EVA2.flueGasZone[1].tube.lambda[1]
EVA2.flueGasZone[1].tube.lambda[2]
EVA2.flueGasZone[1].tube.lambda[3]
EVA2.flueGasZone[1].tube.lambda[4]
EVA2.flueGasZone[1].tube.lambda[5]
EVA2.flueGasZone[1].tube.E_flows[1]
EVA2.flueGasZone[1].tube.E_flows[2]
EVA2.flueGasZone[1].tube.E_flows[3]
EVA2.flueGasZone[1].tube.E_flows[4]
EVA2.flueGasZone[1].tube.E_flows[5]
EVA2.flueGasZone[1].tube.qHeating[1]
EVA2.flueGasZone[1].tube.qHeating[2]
EVA2.flueGasZone[1].tube.qHeating[3]
EVA2.flueGasZone[1].tube.qHeating[4]
EVA2.flueGasZone[1].tube.qHeating[5]
EVA2.flueGasZone[1].tube.useDelayedPressure
EVA2.flueGasZone[1].tube.timeDelayOfPressure
EVA2.flueGasZone[1].tube.hydM
EVA2.flueGasZone[1].tube.hydP
EVA2.flueGasZone[1].tube.friction.geoPipe.Nt
EVA2.flueGasZone[1].tube.friction.geoPipe.L
EVA2.flueGasZone[1].tube.friction.geoPipe.H
EVA2.flueGasZone[1].tube.friction.geoPipe.d_out
EVA2.flueGasZone[1].tube.friction.geoPipe.s
EVA2.flueGasZone[1].tube.friction.geoPipe.r
EVA2.flueGasZone[1].tube.friction.geoPipe.zeta_add
EVA2.flueGasZone[1].tube.friction.geoPipe.isCylindric
EVA2.flueGasZone[1].tube.friction.geoPipe.A
EVA2.flueGasZone[1].tube.friction.dz
EVA2.flueGasZone[1].tube.friction.lambda
EVA2.flueGasZone[1].tube.friction.steamQuality
EVA2.flueGasZone[1].tube.friction.xdo
EVA2.flueGasZone[1].tube.friction.isSinglePhase
EVA2.flueGasZone[1].tube.friction.m_flowLaminar
EVA2.flueGasZone[1].tube.friction.diameterInner
EVA2.flueGasZone[1].tube.friction.A
EVA2.flueGasZone[1].tube.friction.zeta
EVA2.flueGasZone[1].tube.TWall[1]
EVA2.flueGasZone[1].tube.TWall[2]
EVA2.flueGasZone[1].tube.TWall[3]
EVA2.flueGasZone[1].tube.TWall[4]
EVA2.flueGasZone[1].tube.TWall[5]
EVA2.flueGasZone[1].tube.delayInnerHeatTransfer
EVA2.flueGasZone[1].tube.timeDelayOfInnerHeatTransfer
EVA2.flueGasZone[1].tube.useHeatInput
EVA2.flueGasZone[1].tube.initializeWithZeroInnerHeatFlow
EVA2.flueGasZone[1].tube.alpha_start
EVA2.flueGasZone[1].tube.numberOfWallLayers
EVA2.flueGasZone[1].tube.TWall_start[1]
EVA2.flueGasZone[1].tube.TWall_start[2]
EVA2.flueGasZone[1].tube.TWall_start[3]
EVA2.flueGasZone[1].tube.TWall_start[4]
EVA2.flueGasZone[1].tube.TWall_start[5]
EVA2.flueGasZone[1].tube.metal.cp
EVA2.flueGasZone[1].tube.metal.lambda
EVA2.flueGasZone[1].tube.metal.rho
EVA2.flueGasZone[1].tube.stressCoeffofWall.eta
EVA2.flueGasZone[1].tube.stressCoeffofWall.alpha_t
EVA2.flueGasZone[1].tube.stressCoeffofWall.alpha_m
EVA2.flueGasZone[1].tube.stressCoeffofWall.beta
EVA2.flueGasZone[1].tube.stressCoeffofWall.E
EVA2.flueGasZone[1].tube.heatPort[1].Q_flow
EVA2.flueGasZone[1].tube.heatPort[2].Q_flow
EVA2.flueGasZone[1].tube.heatPort[3].Q_flow
EVA2.flueGasZone[1].tube.heatPort[4].Q_flow
EVA2.flueGasZone[1].tube.heatPort[5].Q_flow
EVA2.flueGasZone[1].tube.wall.numberOfNodes
EVA2.flueGasZone[1].tube.wall.numberOfWallLayers
EVA2.flueGasZone[1].tube.wall.assumePlainHeatTransfer
EVA2.flueGasZone[1].tube.wall.metal.cp
EVA2.flueGasZone[1].tube.wall.metal.lambda
EVA2.flueGasZone[1].tube.wall.metal.rho
EVA2.flueGasZone[1].tube.wall.numberOfParallelTubes
EVA2.flueGasZone[1].tube.wall.length
EVA2.flueGasZone[1].tube.wall.diameterInner
EVA2.flueGasZone[1].tube.wall.wallThickness
EVA2.flueGasZone[1].tube.wall.useDynamicEquations
EVA2.flueGasZone[1].tube.wall.considerConductivity
EVA2.flueGasZone[1].tube.wall.considerAxialHeatTransfer
EVA2.flueGasZone[1].tube.wall.T_start[1]
EVA2.flueGasZone[1].tube.wall.T_start[2]
EVA2.flueGasZone[1].tube.wall.T_start[3]
EVA2.flueGasZone[1].tube.wall.T_start[4]
EVA2.flueGasZone[1].tube.wall.T_start[5]
EVA2.flueGasZone[1].tube.wall.layer[1].pi
EVA2.flueGasZone[1].tube.wall.layer[1].numberOfNodes
EVA2.flueGasZone[1].tube.wall.layer[1].assumePlainHeatTransfer
EVA2.flueGasZone[1].tube.wall.layer[1].metal.cp
EVA2.flueGasZone[1].tube.wall.layer[1].metal.lambda
EVA2.flueGasZone[1].tube.wall.layer[1].metal.rho
EVA2.flueGasZone[1].tube.wall.layer[1].numberOfParallelTubes
EVA2.flueGasZone[1].tube.wall.layer[1].length
EVA2.flueGasZone[1].tube.wall.layer[1].diameterInner
EVA2.flueGasZone[1].tube.wall.layer[1].wallThickness
EVA2.flueGasZone[1].tube.wall.layer[1].useDynamicEquations
EVA2.flueGasZone[1].tube.wall.layer[1].considerConductivity
EVA2.flueGasZone[1].tube.wall.layer[1].considerAxialHeatTransfer
EVA2.flueGasZone[1].tube.wall.layer[1].T_start[1]
EVA2.flueGasZone[1].tube.wall.layer[1].T_start[2]
EVA2.flueGasZone[1].tube.wall.layer[1].T_start[3]
EVA2.flueGasZone[1].tube.wall.layer[1].T_start[4]
EVA2.flueGasZone[1].tube.wall.layer[1].T_start[5]
EVA2.flueGasZone[1].tube.wall.layer[1].port_int[1].Q_flow
EVA2.flueGasZone[1].tube.wall.layer[1].port_int[2].Q_flow
EVA2.flueGasZone[1].tube.wall.layer[1].port_int[3].Q_flow
EVA2.flueGasZone[1].tube.wall.layer[1].port_int[4].Q_flow
EVA2.flueGasZone[1].tube.wall.layer[1].port_int[5].Q_flow
EVA2.flueGasZone[1].tube.wall.layer[1].Am
EVA2.flueGasZone[1].tube.wall.layer[1].T[1]
EVA2.flueGasZone[1].tube.wall.layer[1].der(T[1])
EVA2.flueGasZone[1].tube.wall.layer[1].T[2]
EVA2.flueGasZone[1].tube.wall.layer[1].der(T[2])
EVA2.flueGasZone[1].tube.wall.layer[1].T[3]
EVA2.flueGasZone[1].tube.wall.layer[1].der(T[3])
EVA2.flueGasZone[1].tube.wall.layer[1].T[4]
EVA2.flueGasZone[1].tube.wall.layer[1].der(T[4])
EVA2.flueGasZone[1].tube.wall.layer[1].T[5]
EVA2.flueGasZone[1].tube.wall.layer[1].der(T[5])
EVA2.flueGasZone[1].tube.wall.layer[1].rint
EVA2.flueGasZone[1].tube.wall.layer[1].rext
EVA2.flueGasZone[1].tube.wall.layer[1].Tube_mass
EVA2.flueGasZone[1].tube.wall.layer[1].HeatCap
EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[1]
EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[2]
EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[3]
EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[4]
EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[5]
EVA2.flueGasZone[1].tube.wall.stress.eta
EVA2.flueGasZone[1].tube.wall.stress.alpha_t
EVA2.flueGasZone[1].tube.wall.stress.alpha_m
EVA2.flueGasZone[1].tube.wall.stress.beta
EVA2.flueGasZone[1].tube.wall.stress.E
EVA2.flueGasZone[1].tube.wall.dT
EVA2.flueGasZone[1].tube.wall.ft
EVA2.flueGasZone[1].tube.wall.fm
EVA2.flueGasZone[1].tube.wall.tension
EVA2.flueGasZone[1].tube.heatport.numberOfNodes
EVA2.flueGasZone[1].tube.alpha[1]
EVA2.flueGasZone[1].tube.alpha[2]
EVA2.flueGasZone[1].tube.alpha[3]
EVA2.flueGasZone[1].tube.alpha[4]
EVA2.flueGasZone[1].tube.alpha[5]
EVA2.flueGasZone[1].tube.HT[1].geoPipe.Nt
EVA2.flueGasZone[1].tube.HT[1].geoPipe.L
EVA2.flueGasZone[1].tube.HT[1].geoPipe.H
EVA2.flueGasZone[1].tube.HT[1].geoPipe.d_out
EVA2.flueGasZone[1].tube.HT[1].geoPipe.s
EVA2.flueGasZone[1].tube.HT[1].geoPipe.r
EVA2.flueGasZone[1].tube.HT[1].geoPipe.zeta_add
EVA2.flueGasZone[1].tube.HT[1].geoPipe.isCylindric
EVA2.flueGasZone[1].tube.HT[1].geoPipe.A
EVA2.flueGasZone[1].tube.HT[1].diameterInner
EVA2.flueGasZone[1].tube.HT[1].steamQuality
EVA2.flueGasZone[1].tube.HT[1].dT
EVA2.flueGasZone[1].tube.HT[1].xdo
EVA2.flueGasZone[1].tube.HT[1].isSinglePhase
EVA2.flueGasZone[1].tube.HT[1].A
EVA2.flueGasZone[1].tube.HT[2].geoPipe.Nt
EVA2.flueGasZone[1].tube.HT[2].geoPipe.L
EVA2.flueGasZone[1].tube.HT[2].geoPipe.H
EVA2.flueGasZone[1].tube.HT[2].geoPipe.d_out
EVA2.flueGasZone[1].tube.HT[2].geoPipe.s
EVA2.flueGasZone[1].tube.HT[2].geoPipe.r
EVA2.flueGasZone[1].tube.HT[2].geoPipe.zeta_add
EVA2.flueGasZone[1].tube.HT[2].geoPipe.isCylindric
EVA2.flueGasZone[1].tube.HT[2].geoPipe.A
EVA2.flueGasZone[1].tube.HT[2].diameterInner
EVA2.flueGasZone[1].tube.HT[2].steamQuality
EVA2.flueGasZone[1].tube.HT[2].dT
EVA2.flueGasZone[1].tube.HT[2].xdo
EVA2.flueGasZone[1].tube.HT[2].isSinglePhase
EVA2.flueGasZone[1].tube.HT[2].A
EVA2.flueGasZone[1].tube.HT[3].geoPipe.Nt
EVA2.flueGasZone[1].tube.HT[3].geoPipe.L
EVA2.flueGasZone[1].tube.HT[3].geoPipe.H
EVA2.flueGasZone[1].tube.HT[3].geoPipe.d_out
EVA2.flueGasZone[1].tube.HT[3].geoPipe.s
EVA2.flueGasZone[1].tube.HT[3].geoPipe.r
EVA2.flueGasZone[1].tube.HT[3].geoPipe.zeta_add
EVA2.flueGasZone[1].tube.HT[3].geoPipe.isCylindric
EVA2.flueGasZone[1].tube.HT[3].geoPipe.A
EVA2.flueGasZone[1].tube.HT[3].diameterInner
EVA2.flueGasZone[1].tube.HT[3].steamQuality
EVA2.flueGasZone[1].tube.HT[3].dT
EVA2.flueGasZone[1].tube.HT[3].xdo
EVA2.flueGasZone[1].tube.HT[3].isSinglePhase
EVA2.flueGasZone[1].tube.HT[3].A
EVA2.flueGasZone[1].tube.HT[4].geoPipe.Nt
EVA2.flueGasZone[1].tube.HT[4].geoPipe.L
EVA2.flueGasZone[1].tube.HT[4].geoPipe.H
EVA2.flueGasZone[1].tube.HT[4].geoPipe.d_out
EVA2.flueGasZone[1].tube.HT[4].geoPipe.s
EVA2.flueGasZone[1].tube.HT[4].geoPipe.r
EVA2.flueGasZone[1].tube.HT[4].geoPipe.zeta_add
EVA2.flueGasZone[1].tube.HT[4].geoPipe.isCylindric
EVA2.flueGasZone[1].tube.HT[4].geoPipe.A
EVA2.flueGasZone[1].tube.HT[4].diameterInner
EVA2.flueGasZone[1].tube.HT[4].steamQuality
EVA2.flueGasZone[1].tube.HT[4].dT
EVA2.flueGasZone[1].tube.HT[4].xdo
EVA2.flueGasZone[1].tube.HT[4].isSinglePhase
EVA2.flueGasZone[1].tube.HT[4].A
EVA2.flueGasZone[1].tube.HT[5].geoPipe.Nt
EVA2.flueGasZone[1].tube.HT[5].geoPipe.L
EVA2.flueGasZone[1].tube.HT[5].geoPipe.H
EVA2.flueGasZone[1].tube.HT[5].geoPipe.d_out
EVA2.flueGasZone[1].tube.HT[5].geoPipe.s
EVA2.flueGasZone[1].tube.HT[5].geoPipe.r
EVA2.flueGasZone[1].tube.HT[5].geoPipe.zeta_add
EVA2.flueGasZone[1].tube.HT[5].geoPipe.isCylindric
EVA2.flueGasZone[1].tube.HT[5].geoPipe.A
EVA2.flueGasZone[1].tube.HT[5].diameterInner
EVA2.flueGasZone[1].tube.HT[5].steamQuality
EVA2.flueGasZone[1].tube.HT[5].dT
EVA2.flueGasZone[1].tube.HT[5].xdo
EVA2.flueGasZone[1].tube.HT[5].isSinglePhase
EVA2.flueGasZone[1].tube.HT[5].A
EVA2.flueGasZone[1].heatTransfer.numberOfNodes
EVA2.flueGasZone[1].heatTransfer.lengthRe
EVA2.flueGasZone[1].heatTransfer.lengthNu
EVA2.flueGasZone[1].heatTransfer.ACrossFlow
EVA2.flueGasZone[1].heatTransfer.AHeatTransfer
EVA2.flueGasZone[1].heatTransfer.geoFGZ.pt
EVA2.flueGasZone[1].heatTransfer.geoFGZ.pl
EVA2.flueGasZone[1].heatTransfer.geoFGZ.Lw
EVA2.flueGasZone[1].heatTransfer.geoFGZ.Ld
EVA2.flueGasZone[1].heatTransfer.geoFGZ.Lh
EVA2.flueGasZone[1].heatTransfer.geoFGZ.Nr
EVA2.flueGasZone[1].heatTransfer.geoFGZ.staggered
EVA2.flueGasZone[1].heatTransfer.geoFins.finned
EVA2.flueGasZone[1].heatTransfer.geoFins.serrated
EVA2.flueGasZone[1].heatTransfer.geoFins.h
EVA2.flueGasZone[1].heatTransfer.geoFins.s
EVA2.flueGasZone[1].heatTransfer.geoFins.b
EVA2.flueGasZone[1].heatTransfer.geoFins.w
EVA2.flueGasZone[1].heatTransfer.geoFins.n
EVA2.flueGasZone[1].heatTransfer.geoPipe.Nt
EVA2.flueGasZone[1].heatTransfer.geoPipe.L
EVA2.flueGasZone[1].heatTransfer.geoPipe.H
EVA2.flueGasZone[1].heatTransfer.geoPipe.d_out
EVA2.flueGasZone[1].heatTransfer.geoPipe.s
EVA2.flueGasZone[1].heatTransfer.geoPipe.r
EVA2.flueGasZone[1].heatTransfer.geoPipe.zeta_add
EVA2.flueGasZone[1].heatTransfer.geoPipe.isCylindric
EVA2.flueGasZone[1].heatTransfer.geoPipe.A
EVA2.flueGasZone[1].heatTransfer.alpha_start
EVA2.flueGasZone[1].heatTransfer.state.p
EVA2.flueGasZone[1].heatTransfer.state.T
EVA2.flueGasZone[1].heatTransfer.state.X[1]
EVA2.flueGasZone[1].heatTransfer.state.X[2]
EVA2.flueGasZone[1].heatTransfer.state.X[3]
EVA2.flueGasZone[1].heatTransfer.state.X[4]
EVA2.flueGasZone[1].heatTransfer.state.X[5]
EVA2.flueGasZone[1].heatTransfer.state.X[6]
EVA2.flueGasZone[1].heatTransfer.Re
EVA2.flueGasZone[1].heatTransfer.Pr
EVA2.flueGasZone[1].heatTransfer.Nu[1]
EVA2.flueGasZone[1].heatTransfer.Nu[2]
EVA2.flueGasZone[1].heatTransfer.Nu[3]
EVA2.flueGasZone[1].heatTransfer.Nu[4]
EVA2.flueGasZone[1].heatTransfer.Nu[5]
EVA2.flueGasZone[1].heatTransfer.cp
EVA2.flueGasZone[1].heatTransfer.eta
EVA2.flueGasZone[1].heatTransfer.lambda
EVA2.flueGasZone[1].heatTransfer.Psi
EVA2.flueGasZone[1].heatTransfer.heatingSurfaceFactor_set
EVA2.flueGasZone[1].mediumGasOut.h
EVA2.flueGasZone[1].mediumGasOut.der(h)
EVA2.flueGasZone[1].mediumGasOut.d
EVA2.flueGasZone[1].mediumGasOut.X[1]
EVA2.flueGasZone[1].mediumGasOut.X[2]
EVA2.flueGasZone[1].mediumGasOut.X[3]
EVA2.flueGasZone[1].mediumGasOut.X[4]
EVA2.flueGasZone[1].mediumGasOut.X[5]
EVA2.flueGasZone[1].mediumGasOut.X[6]
EVA2.flueGasZone[1].mediumGasOut.u
EVA2.flueGasZone[1].mediumGasOut.R
EVA2.flueGasZone[1].mediumGasOut.MM
EVA2.flueGasZone[1].mediumGasOut.state.p
EVA2.flueGasZone[1].mediumGasOut.state.T
EVA2.flueGasZone[1].mediumGasOut.state.X[1]
EVA2.flueGasZone[1].mediumGasOut.state.X[2]
EVA2.flueGasZone[1].mediumGasOut.state.X[3]
EVA2.flueGasZone[1].mediumGasOut.state.X[4]
EVA2.flueGasZone[1].mediumGasOut.state.X[5]
EVA2.flueGasZone[1].mediumGasOut.state.X[6]
EVA2.flueGasZone[1].mediumGasOut.preferredMediumStates
EVA2.flueGasZone[1].mediumGasOut.standardOrderComponents
EVA2.flueGasZone[1].mediumGasOut.T_degC
EVA2.flueGasZone[1].mediumGasOut.p_bar
EVA2.flueGasZone[1].mediumGas.h
EVA2.flueGasZone[1].mediumGas.d
EVA2.flueGasZone[1].mediumGas.X[1]
EVA2.flueGasZone[1].mediumGas.X[2]
EVA2.flueGasZone[1].mediumGas.X[3]
EVA2.flueGasZone[1].mediumGas.X[4]
EVA2.flueGasZone[1].mediumGas.X[5]
EVA2.flueGasZone[1].mediumGas.X[6]
EVA2.flueGasZone[1].mediumGas.u
EVA2.flueGasZone[1].mediumGas.R
EVA2.flueGasZone[1].mediumGas.MM
EVA2.flueGasZone[1].mediumGas.state.p
EVA2.flueGasZone[1].mediumGas.state.T
EVA2.flueGasZone[1].mediumGas.state.X[1]
EVA2.flueGasZone[1].mediumGas.state.X[2]
EVA2.flueGasZone[1].mediumGas.state.X[3]
EVA2.flueGasZone[1].mediumGas.state.X[4]
EVA2.flueGasZone[1].mediumGas.state.X[5]
EVA2.flueGasZone[1].mediumGas.state.X[6]
EVA2.flueGasZone[1].mediumGas.preferredMediumStates
EVA2.flueGasZone[1].mediumGas.standardOrderComponents
EVA2.flueGasZone[1].mediumGas.T_degC
EVA2.flueGasZone[1].mediumGas.p_bar
EVA2.flueGasZone[1].mediumGasIn.h
EVA2.flueGasZone[1].mediumGasIn.d
EVA2.flueGasZone[1].mediumGasIn.X[1]
EVA2.flueGasZone[1].mediumGasIn.X[2]
EVA2.flueGasZone[1].mediumGasIn.X[3]
EVA2.flueGasZone[1].mediumGasIn.X[4]
EVA2.flueGasZone[1].mediumGasIn.X[5]
EVA2.flueGasZone[1].mediumGasIn.X[6]
EVA2.flueGasZone[1].mediumGasIn.u
EVA2.flueGasZone[1].mediumGasIn.R
EVA2.flueGasZone[1].mediumGasIn.MM
EVA2.flueGasZone[1].mediumGasIn.state.p
EVA2.flueGasZone[1].mediumGasIn.state.T
EVA2.flueGasZone[1].mediumGasIn.state.X[1]
EVA2.flueGasZone[1].mediumGasIn.state.X[2]
EVA2.flueGasZone[1].mediumGasIn.state.X[3]
EVA2.flueGasZone[1].mediumGasIn.state.X[4]
EVA2.flueGasZone[1].mediumGasIn.state.X[5]
EVA2.flueGasZone[1].mediumGasIn.state.X[6]
EVA2.flueGasZone[1].mediumGasIn.preferredMediumStates
EVA2.flueGasZone[1].mediumGasIn.standardOrderComponents
EVA2.flueGasZone[1].mediumGasIn.T_degC
EVA2.flueGasZone[1].mediumGasIn.p_bar
EVA2.flueGasZone[1].state_gas.X[1]
EVA2.flueGasZone[1].state_gas.X[2]
EVA2.flueGasZone[1].state_gas.X[3]
EVA2.flueGasZone[1].state_gas.X[4]
EVA2.flueGasZone[1].state_gas.X[5]
EVA2.flueGasZone[1].state_gas.X[6]
EVA2.flueGasZone[1].V_gas
EVA2.flueGasZone[1].deltaT[1]
EVA2.flueGasZone[1].deltaT[2]
EVA2.flueGasZone[1].deltaT[3]
EVA2.flueGasZone[1].deltaT[4]
EVA2.flueGasZone[1].deltaT[5]
EVA2.flueGasZone[1].T_start[1]
EVA2.flueGasZone[1].T_start[2]
EVA2.flueGasZone[1].T_start[3]
EVA2.flueGasZone[1].T_start[4]
EVA2.flueGasZone[1].T_start[5]
EVA2.flueGasZone[1].lengthCharacteristicRe
EVA2.flueGasZone[1].Ah
EVA2.flueGasZone[1].temperatureRate[1]
EVA2.flueGasZone[1].temperatureRate[2]
EVA2.flueGasZone[1].temperatureRate[3]
EVA2.flueGasZone[1].temperatureRate[4]
EVA2.flueGasZone[1].temperatureRate[5]
EVA2.flueGasZone[1].fins.pi
EVA2.flueGasZone[1].fins.numberOfNodes
EVA2.flueGasZone[1].fins.geoFins.finned
EVA2.flueGasZone[1].fins.geoFins.serrated
EVA2.flueGasZone[1].fins.geoFins.h
EVA2.flueGasZone[1].fins.geoFins.s
EVA2.flueGasZone[1].fins.geoFins.b
EVA2.flueGasZone[1].fins.geoFins.w
EVA2.flueGasZone[1].fins.geoFins.n
EVA2.flueGasZone[1].fins.geoPipe.Nt
EVA2.flueGasZone[1].fins.geoPipe.L
EVA2.flueGasZone[1].fins.geoPipe.H
EVA2.flueGasZone[1].fins.geoPipe.d_out
EVA2.flueGasZone[1].fins.geoPipe.s
EVA2.flueGasZone[1].fins.geoPipe.r
EVA2.flueGasZone[1].fins.geoPipe.zeta_add
EVA2.flueGasZone[1].fins.geoPipe.isCylindric
EVA2.flueGasZone[1].fins.geoPipe.A
EVA2.flueGasZone[1].fins.metal.cp
EVA2.flueGasZone[1].fins.metal.lambda
EVA2.flueGasZone[1].fins.metal.rho
EVA2.flueGasZone[1].fins.T_start[1]
EVA2.flueGasZone[1].fins.T_start[2]
EVA2.flueGasZone[1].fins.T_start[3]
EVA2.flueGasZone[1].fins.T_start[4]
EVA2.flueGasZone[1].fins.T_start[5]
EVA2.flueGasZone[1].fins.useDynamicEquations
EVA2.flueGasZone[1].fins.T[1]
EVA2.flueGasZone[1].fins.der(T[1])
EVA2.flueGasZone[1].fins.T[2]
EVA2.flueGasZone[1].fins.der(T[2])
EVA2.flueGasZone[1].fins.T[3]
EVA2.flueGasZone[1].fins.der(T[3])
EVA2.flueGasZone[1].fins.T[4]
EVA2.flueGasZone[1].fins.der(T[4])
EVA2.flueGasZone[1].fins.T[5]
EVA2.flueGasZone[1].fins.der(T[5])
EVA2.flueGasZone[1].fins.V
EVA2.flueGasZone[1].fins.M
EVA2.flueGasZone[1].fins.Cp
EVA2.flueGasZone[1].heatPortToGas.numberOfNodes
EVA2.flueGasZone[1].heatPortToGas.Q_flow[1]
EVA2.flueGasZone[1].heatPortToGas.Q_flow[2]
EVA2.flueGasZone[1].heatPortToGas.Q_flow[3]
EVA2.flueGasZone[1].heatPortToGas.Q_flow[4]
EVA2.flueGasZone[1].heatPortToGas.Q_flow[5]
EVA2.flueGasZone[2].pi
EVA2.flueGasZone[2].numberOfTubeNodes
EVA2.flueGasZone[2].numberOfWallLayers
EVA2.flueGasZone[2].hydraulicResistance_gas
EVA2.flueGasZone[2].delayInnerHeatTransfer
EVA2.flueGasZone[2].timeDelayOfInnerHeatTransfer
EVA2.flueGasZone[2].m_flow_start
EVA2.flueGasZone[2].pIn_start
EVA2.flueGasZone[2].pOut_start
EVA2.flueGasZone[2].hIn_start
EVA2.flueGasZone[2].hOut_start
EVA2.flueGasZone[2].pGas_start
EVA2.flueGasZone[2].TGasIn_start
EVA2.flueGasZone[2].TGasOut_start
EVA2.flueGasZone[2].m_flowGas_start
EVA2.flueGasZone[2].initializeInletPressure
EVA2.flueGasZone[2].initializeSteadyStateEnthalpies
EVA2.flueGasZone[2].initializeSteadyStateInletEnthalpy
EVA2.flueGasZone[2].useHeatInput
EVA2.flueGasZone[2].initializeWithZeroInnerHeatFlow
EVA2.flueGasZone[2].TWall_start[1]
EVA2.flueGasZone[2].TWall_start[2]
EVA2.flueGasZone[2].TWall_start[3]
EVA2.flueGasZone[2].TWall_start[4]
EVA2.flueGasZone[2].TWall_start[5]
EVA2.flueGasZone[2].geoFGZ.pt
EVA2.flueGasZone[2].geoFGZ.pl
EVA2.flueGasZone[2].geoFGZ.Lw
EVA2.flueGasZone[2].geoFGZ.Ld
EVA2.flueGasZone[2].geoFGZ.Lh
EVA2.flueGasZone[2].geoFGZ.Nr
EVA2.flueGasZone[2].geoFGZ.staggered
EVA2.flueGasZone[2].geoFins.finned
EVA2.flueGasZone[2].geoFins.serrated
EVA2.flueGasZone[2].geoFins.h
EVA2.flueGasZone[2].geoFins.s
EVA2.flueGasZone[2].geoFins.b
EVA2.flueGasZone[2].geoFins.w
EVA2.flueGasZone[2].geoFins.n
EVA2.flueGasZone[2].geoPipe.Nt
EVA2.flueGasZone[2].geoPipe.L
EVA2.flueGasZone[2].geoPipe.H
EVA2.flueGasZone[2].geoPipe.d_out
EVA2.flueGasZone[2].geoPipe.s
EVA2.flueGasZone[2].geoPipe.r
EVA2.flueGasZone[2].geoPipe.zeta_add
EVA2.flueGasZone[2].geoPipe.isCylindric
EVA2.flueGasZone[2].geoPipe.A
EVA2.flueGasZone[2].metal.cp
EVA2.flueGasZone[2].metal.lambda
EVA2.flueGasZone[2].metal.rho
EVA2.flueGasZone[2].cleanliness
EVA2.flueGasZone[2].computeHeatLossInPercent
EVA2.flueGasZone[2].heatloss
EVA2.flueGasZone[2].kLossToAmbient
EVA2.flueGasZone[2].T_ambient
EVA2.flueGasZone[2].Q_flowToAmbient[1]
EVA2.flueGasZone[2].Q_flowToAmbient[2]
EVA2.flueGasZone[2].Q_flowToAmbient[3]
EVA2.flueGasZone[2].Q_flowToAmbient[4]
EVA2.flueGasZone[2].Q_flowToAmbient[5]
EVA2.flueGasZone[2].tube.hIn
EVA2.flueGasZone[2].tube.hOut
EVA2.flueGasZone[2].tube.preferredStates
EVA2.flueGasZone[2].tube.m_flow_start
EVA2.flueGasZone[2].tube.pIn_start
EVA2.flueGasZone[2].tube.pOut_start
EVA2.flueGasZone[2].tube.useTemperatureStartValue
EVA2.flueGasZone[2].tube.hIn_start
EVA2.flueGasZone[2].tube.hOut_start
EVA2.flueGasZone[2].tube.TIn_start
EVA2.flueGasZone[2].tube.TOut_start
EVA2.flueGasZone[2].tube.XIn_start[1]
EVA2.flueGasZone[2].tube.XOut_start[1]
EVA2.flueGasZone[2].tube.useSubstanceStorage
EVA2.flueGasZone[2].tube.useEnergyStorage
EVA2.flueGasZone[2].tube.dp
EVA2.flueGasZone[2].tube.state_from_a.phase
EVA2.flueGasZone[2].tube.state_from_a.h
EVA2.flueGasZone[2].tube.state_from_a.d
EVA2.flueGasZone[2].tube.state_from_a.T
EVA2.flueGasZone[2].tube.state_from_b.phase
EVA2.flueGasZone[2].tube.state_from_b.h
EVA2.flueGasZone[2].tube.state_from_b.d
EVA2.flueGasZone[2].tube.state_from_b.T
EVA2.flueGasZone[2].tube.g
EVA2.flueGasZone[2].tube.pi
EVA2.flueGasZone[2].tube.numberOfNodes
EVA2.flueGasZone[2].tube.geoPipe.Nt
EVA2.flueGasZone[2].tube.geoPipe.L
EVA2.flueGasZone[2].tube.geoPipe.H
EVA2.flueGasZone[2].tube.geoPipe.d_out
EVA2.flueGasZone[2].tube.geoPipe.s
EVA2.flueGasZone[2].tube.geoPipe.r
EVA2.flueGasZone[2].tube.geoPipe.zeta_add
EVA2.flueGasZone[2].tube.geoPipe.isCylindric
EVA2.flueGasZone[2].tube.geoPipe.A
EVA2.flueGasZone[2].tube.initializeInletPressure
EVA2.flueGasZone[2].tube.initializeSteadyStateEnthalpies
EVA2.flueGasZone[2].tube.initializeSteadyStateInletEnthalpy
EVA2.flueGasZone[2].tube.h_start[1]
EVA2.flueGasZone[2].tube.h_start[2]
EVA2.flueGasZone[2].tube.h_start[3]
EVA2.flueGasZone[2].tube.h_start[4]
EVA2.flueGasZone[2].tube.h_start[5]
EVA2.flueGasZone[2].tube.Q_flow_start[1]
EVA2.flueGasZone[2].tube.Q_flow_start[2]
EVA2.flueGasZone[2].tube.Q_flow_start[3]
EVA2.flueGasZone[2].tube.Q_flow_start[4]
EVA2.flueGasZone[2].tube.Q_flow_start[5]
EVA2.flueGasZone[2].tube.additionalVolume
EVA2.flueGasZone[2].tube.useDynamicMassBalance
EVA2.flueGasZone[2].tube.considerDynamicMomentum
EVA2.flueGasZone[2].tube.considerDynamicPressure
EVA2.flueGasZone[2].tube.heatedArea
EVA2.flueGasZone[2].tube.diameterInner
EVA2.flueGasZone[2].tube.dz
EVA2.flueGasZone[2].tube.V
EVA2.flueGasZone[2].tube.A
EVA2.flueGasZone[2].tube.VTotal
EVA2.flueGasZone[2].tube.VCell
EVA2.flueGasZone[2].tube.sinphi
EVA2.flueGasZone[2].tube.fluid[1].h
EVA2.flueGasZone[2].tube.fluid[1].der(h)
EVA2.flueGasZone[2].tube.fluid[1].X[1]
EVA2.flueGasZone[2].tube.fluid[1].u
EVA2.flueGasZone[2].tube.fluid[1].R
EVA2.flueGasZone[2].tube.fluid[1].MM
EVA2.flueGasZone[2].tube.fluid[1].preferredMediumStates
EVA2.flueGasZone[2].tube.fluid[1].standardOrderComponents
EVA2.flueGasZone[2].tube.fluid[1].T_degC
EVA2.flueGasZone[2].tube.fluid[1].p_bar
EVA2.flueGasZone[2].tube.fluid[1].sat.Tsat
EVA2.flueGasZone[2].tube.fluid[1].phase
EVA2.flueGasZone[2].tube.fluid[2].p
EVA2.flueGasZone[2].tube.fluid[2].der(p)
EVA2.flueGasZone[2].tube.fluid[2].h
EVA2.flueGasZone[2].tube.fluid[2].der(h)
EVA2.flueGasZone[2].tube.fluid[2].X[1]
EVA2.flueGasZone[2].tube.fluid[2].u
EVA2.flueGasZone[2].tube.fluid[2].R
EVA2.flueGasZone[2].tube.fluid[2].MM
EVA2.flueGasZone[2].tube.fluid[2].preferredMediumStates
EVA2.flueGasZone[2].tube.fluid[2].standardOrderComponents
EVA2.flueGasZone[2].tube.fluid[2].T_degC
EVA2.flueGasZone[2].tube.fluid[2].p_bar
EVA2.flueGasZone[2].tube.fluid[2].sat.Tsat
EVA2.flueGasZone[2].tube.fluid[2].phase
EVA2.flueGasZone[2].tube.fluid[3].h
EVA2.flueGasZone[2].tube.fluid[3].der(h)
EVA2.flueGasZone[2].tube.fluid[3].X[1]
EVA2.flueGasZone[2].tube.fluid[3].u
EVA2.flueGasZone[2].tube.fluid[3].R
EVA2.flueGasZone[2].tube.fluid[3].MM
EVA2.flueGasZone[2].tube.fluid[3].preferredMediumStates
EVA2.flueGasZone[2].tube.fluid[3].standardOrderComponents
EVA2.flueGasZone[2].tube.fluid[3].T_degC
EVA2.flueGasZone[2].tube.fluid[3].p_bar
EVA2.flueGasZone[2].tube.fluid[3].sat.Tsat
EVA2.flueGasZone[2].tube.fluid[3].phase
EVA2.flueGasZone[2].tube.fluid[4].h
EVA2.flueGasZone[2].tube.fluid[4].der(h)
EVA2.flueGasZone[2].tube.fluid[4].X[1]
EVA2.flueGasZone[2].tube.fluid[4].u
EVA2.flueGasZone[2].tube.fluid[4].R
EVA2.flueGasZone[2].tube.fluid[4].MM
EVA2.flueGasZone[2].tube.fluid[4].preferredMediumStates
EVA2.flueGasZone[2].tube.fluid[4].standardOrderComponents
EVA2.flueGasZone[2].tube.fluid[4].T_degC
EVA2.flueGasZone[2].tube.fluid[4].p_bar
EVA2.flueGasZone[2].tube.fluid[4].sat.Tsat
EVA2.flueGasZone[2].tube.fluid[4].phase
EVA2.flueGasZone[2].tube.fluid[5].h
EVA2.flueGasZone[2].tube.fluid[5].der(h)
EVA2.flueGasZone[2].tube.fluid[5].X[1]
EVA2.flueGasZone[2].tube.fluid[5].u
EVA2.flueGasZone[2].tube.fluid[5].R
EVA2.flueGasZone[2].tube.fluid[5].MM
EVA2.flueGasZone[2].tube.fluid[5].preferredMediumStates
EVA2.flueGasZone[2].tube.fluid[5].standardOrderComponents
EVA2.flueGasZone[2].tube.fluid[5].T_degC
EVA2.flueGasZone[2].tube.fluid[5].p_bar
EVA2.flueGasZone[2].tube.fluid[5].sat.Tsat
EVA2.flueGasZone[2].tube.fluid[5].phase
EVA2.flueGasZone[2].tube.m_flows[1]
EVA2.flueGasZone[2].tube.der(m_flows[1])
EVA2.flueGasZone[2].tube.d_av
EVA2.flueGasZone[2].tube.der(d_av)
EVA2.flueGasZone[2].tube.vol_av
EVA2.flueGasZone[2].tube.dpfric
EVA2.flueGasZone[2].tube.dphyd
EVA2.flueGasZone[2].tube.dpHyd_start
EVA2.flueGasZone[2].tube.dpFric_start
EVA2.flueGasZone[2].tube.T_start[1]
EVA2.flueGasZone[2].tube.T_start[2]
EVA2.flueGasZone[2].tube.T_start[3]
EVA2.flueGasZone[2].tube.T_start[4]
EVA2.flueGasZone[2].tube.T_start[5]
EVA2.flueGasZone[2].tube.d_start[1]
EVA2.flueGasZone[2].tube.d_start[2]
EVA2.flueGasZone[2].tube.d_start[3]
EVA2.flueGasZone[2].tube.d_start[4]
EVA2.flueGasZone[2].tube.d_start[5]
EVA2.flueGasZone[2].tube.q_start
EVA2.flueGasZone[2].tube.T[1]
EVA2.flueGasZone[2].tube.T[2]
EVA2.flueGasZone[2].tube.T[3]
EVA2.flueGasZone[2].tube.T[4]
EVA2.flueGasZone[2].tube.T[5]
EVA2.flueGasZone[2].tube.d[1]
EVA2.flueGasZone[2].tube.d[2]
EVA2.flueGasZone[2].tube.d[3]
EVA2.flueGasZone[2].tube.d[4]
EVA2.flueGasZone[2].tube.d[5]
EVA2.flueGasZone[2].tube.der(d[1])
EVA2.flueGasZone[2].tube.der(d[2])
EVA2.flueGasZone[2].tube.der(d[3])
EVA2.flueGasZone[2].tube.der(d[4])
EVA2.flueGasZone[2].tube.der(d[5])
EVA2.flueGasZone[2].tube.vol[1]
EVA2.flueGasZone[2].tube.vol[2]
EVA2.flueGasZone[2].tube.vol[3]
EVA2.flueGasZone[2].tube.vol[4]
EVA2.flueGasZone[2].tube.vol[5]
EVA2.flueGasZone[2].tube.cp[1]
EVA2.flueGasZone[2].tube.cp[2]
EVA2.flueGasZone[2].tube.cp[3]
EVA2.flueGasZone[2].tube.cp[4]
EVA2.flueGasZone[2].tube.cp[5]
EVA2.flueGasZone[2].tube.eta[1]
EVA2.flueGasZone[2].tube.eta[2]
EVA2.flueGasZone[2].tube.eta[3]
EVA2.flueGasZone[2].tube.eta[4]
EVA2.flueGasZone[2].tube.eta[5]
EVA2.flueGasZone[2].tube.lambda[1]
EVA2.flueGasZone[2].tube.lambda[2]
EVA2.flueGasZone[2].tube.lambda[3]
EVA2.flueGasZone[2].tube.lambda[4]
EVA2.flueGasZone[2].tube.lambda[5]
EVA2.flueGasZone[2].tube.E_flows[1]
EVA2.flueGasZone[2].tube.E_flows[2]
EVA2.flueGasZone[2].tube.E_flows[3]
EVA2.flueGasZone[2].tube.E_flows[4]
EVA2.flueGasZone[2].tube.E_flows[5]
EVA2.flueGasZone[2].tube.qHeating[1]
EVA2.flueGasZone[2].tube.qHeating[2]
EVA2.flueGasZone[2].tube.qHeating[3]
EVA2.flueGasZone[2].tube.qHeating[4]
EVA2.flueGasZone[2].tube.qHeating[5]
EVA2.flueGasZone[2].tube.useDelayedPressure
EVA2.flueGasZone[2].tube.timeDelayOfPressure
EVA2.flueGasZone[2].tube.hydM
EVA2.flueGasZone[2].tube.hydP
EVA2.flueGasZone[2].tube.friction.geoPipe.Nt
EVA2.flueGasZone[2].tube.friction.geoPipe.L
EVA2.flueGasZone[2].tube.friction.geoPipe.H
EVA2.flueGasZone[2].tube.friction.geoPipe.d_out
EVA2.flueGasZone[2].tube.friction.geoPipe.s
EVA2.flueGasZone[2].tube.friction.geoPipe.r
EVA2.flueGasZone[2].tube.friction.geoPipe.zeta_add
EVA2.flueGasZone[2].tube.friction.geoPipe.isCylindric
EVA2.flueGasZone[2].tube.friction.geoPipe.A
EVA2.flueGasZone[2].tube.friction.dz
EVA2.flueGasZone[2].tube.friction.lambda
EVA2.flueGasZone[2].tube.friction.steamQuality
EVA2.flueGasZone[2].tube.friction.xdo
EVA2.flueGasZone[2].tube.friction.isSinglePhase
EVA2.flueGasZone[2].tube.friction.m_flowLaminar
EVA2.flueGasZone[2].tube.friction.diameterInner
EVA2.flueGasZone[2].tube.friction.A
EVA2.flueGasZone[2].tube.friction.zeta
EVA2.flueGasZone[2].tube.TWall[1]
EVA2.flueGasZone[2].tube.TWall[2]
EVA2.flueGasZone[2].tube.TWall[3]
EVA2.flueGasZone[2].tube.TWall[4]
EVA2.flueGasZone[2].tube.TWall[5]
EVA2.flueGasZone[2].tube.delayInnerHeatTransfer
EVA2.flueGasZone[2].tube.timeDelayOfInnerHeatTransfer
EVA2.flueGasZone[2].tube.useHeatInput
EVA2.flueGasZone[2].tube.initializeWithZeroInnerHeatFlow
EVA2.flueGasZone[2].tube.alpha_start
EVA2.flueGasZone[2].tube.numberOfWallLayers
EVA2.flueGasZone[2].tube.TWall_start[1]
EVA2.flueGasZone[2].tube.TWall_start[2]
EVA2.flueGasZone[2].tube.TWall_start[3]
EVA2.flueGasZone[2].tube.TWall_start[4]
EVA2.flueGasZone[2].tube.TWall_start[5]
EVA2.flueGasZone[2].tube.metal.cp
EVA2.flueGasZone[2].tube.metal.lambda
EVA2.flueGasZone[2].tube.metal.rho
EVA2.flueGasZone[2].tube.stressCoeffofWall.eta
EVA2.flueGasZone[2].tube.stressCoeffofWall.alpha_t
EVA2.flueGasZone[2].tube.stressCoeffofWall.alpha_m
EVA2.flueGasZone[2].tube.stressCoeffofWall.beta
EVA2.flueGasZone[2].tube.stressCoeffofWall.E
EVA2.flueGasZone[2].tube.heatPort[1].Q_flow
EVA2.flueGasZone[2].tube.heatPort[2].Q_flow
EVA2.flueGasZone[2].tube.heatPort[3].Q_flow
EVA2.flueGasZone[2].tube.heatPort[4].Q_flow
EVA2.flueGasZone[2].tube.heatPort[5].Q_flow
EVA2.flueGasZone[2].tube.wall.numberOfNodes
EVA2.flueGasZone[2].tube.wall.numberOfWallLayers
EVA2.flueGasZone[2].tube.wall.assumePlainHeatTransfer
EVA2.flueGasZone[2].tube.wall.metal.cp
EVA2.flueGasZone[2].tube.wall.metal.lambda
EVA2.flueGasZone[2].tube.wall.metal.rho
EVA2.flueGasZone[2].tube.wall.numberOfParallelTubes
EVA2.flueGasZone[2].tube.wall.length
EVA2.flueGasZone[2].tube.wall.diameterInner
EVA2.flueGasZone[2].tube.wall.wallThickness
EVA2.flueGasZone[2].tube.wall.useDynamicEquations
EVA2.flueGasZone[2].tube.wall.considerConductivity
EVA2.flueGasZone[2].tube.wall.considerAxialHeatTransfer
EVA2.flueGasZone[2].tube.wall.T_start[1]
EVA2.flueGasZone[2].tube.wall.T_start[2]
EVA2.flueGasZone[2].tube.wall.T_start[3]
EVA2.flueGasZone[2].tube.wall.T_start[4]
EVA2.flueGasZone[2].tube.wall.T_start[5]
EVA2.flueGasZone[2].tube.wall.layer[1].pi
EVA2.flueGasZone[2].tube.wall.layer[1].numberOfNodes
EVA2.flueGasZone[2].tube.wall.layer[1].assumePlainHeatTransfer
EVA2.flueGasZone[2].tube.wall.layer[1].metal.cp
EVA2.flueGasZone[2].tube.wall.layer[1].metal.lambda
EVA2.flueGasZone[2].tube.wall.layer[1].metal.rho
EVA2.flueGasZone[2].tube.wall.layer[1].numberOfParallelTubes
EVA2.flueGasZone[2].tube.wall.layer[1].length
EVA2.flueGasZone[2].tube.wall.layer[1].diameterInner
EVA2.flueGasZone[2].tube.wall.layer[1].wallThickness
EVA2.flueGasZone[2].tube.wall.layer[1].useDynamicEquations
EVA2.flueGasZone[2].tube.wall.layer[1].considerConductivity
EVA2.flueGasZone[2].tube.wall.layer[1].considerAxialHeatTransfer
EVA2.flueGasZone[2].tube.wall.layer[1].T_start[1]
EVA2.flueGasZone[2].tube.wall.layer[1].T_start[2]
EVA2.flueGasZone[2].tube.wall.layer[1].T_start[3]
EVA2.flueGasZone[2].tube.wall.layer[1].T_start[4]
EVA2.flueGasZone[2].tube.wall.layer[1].T_start[5]
EVA2.flueGasZone[2].tube.wall.layer[1].port_int[1].Q_flow
EVA2.flueGasZone[2].tube.wall.layer[1].port_int[2].Q_flow
EVA2.flueGasZone[2].tube.wall.layer[1].port_int[3].Q_flow
EVA2.flueGasZone[2].tube.wall.layer[1].port_int[4].Q_flow
EVA2.flueGasZone[2].tube.wall.layer[1].port_int[5].Q_flow
EVA2.flueGasZone[2].tube.wall.layer[1].Am
EVA2.flueGasZone[2].tube.wall.layer[1].T[1]
EVA2.flueGasZone[2].tube.wall.layer[1].der(T[1])
EVA2.flueGasZone[2].tube.wall.layer[1].T[2]
EVA2.flueGasZone[2].tube.wall.layer[1].der(T[2])
EVA2.flueGasZone[2].tube.wall.layer[1].T[3]
EVA2.flueGasZone[2].tube.wall.layer[1].der(T[3])
EVA2.flueGasZone[2].tube.wall.layer[1].T[4]
EVA2.flueGasZone[2].tube.wall.layer[1].der(T[4])
EVA2.flueGasZone[2].tube.wall.layer[1].T[5]
EVA2.flueGasZone[2].tube.wall.layer[1].der(T[5])
EVA2.flueGasZone[2].tube.wall.layer[1].rint
EVA2.flueGasZone[2].tube.wall.layer[1].rext
EVA2.flueGasZone[2].tube.wall.layer[1].Tube_mass
EVA2.flueGasZone[2].tube.wall.layer[1].HeatCap
EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[1]
EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[2]
EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[3]
EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[4]
EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[5]
EVA2.flueGasZone[2].tube.wall.stress.eta
EVA2.flueGasZone[2].tube.wall.stress.alpha_t
EVA2.flueGasZone[2].tube.wall.stress.alpha_m
EVA2.flueGasZone[2].tube.wall.stress.beta
EVA2.flueGasZone[2].tube.wall.stress.E
EVA2.flueGasZone[2].tube.wall.dT
EVA2.flueGasZone[2].tube.wall.ft
EVA2.flueGasZone[2].tube.wall.fm
EVA2.flueGasZone[2].tube.wall.tension
EVA2.flueGasZone[2].tube.heatport.numberOfNodes
EVA2.flueGasZone[2].tube.alpha[1]
EVA2.flueGasZone[2].tube.alpha[2]
EVA2.flueGasZone[2].tube.alpha[3]
EVA2.flueGasZone[2].tube.alpha[4]
EVA2.flueGasZone[2].tube.alpha[5]
EVA2.flueGasZone[2].tube.HT[1].geoPipe.Nt
EVA2.flueGasZone[2].tube.HT[1].geoPipe.L
EVA2.flueGasZone[2].tube.HT[1].geoPipe.H
EVA2.flueGasZone[2].tube.HT[1].geoPipe.d_out
EVA2.flueGasZone[2].tube.HT[1].geoPipe.s
EVA2.flueGasZone[2].tube.HT[1].geoPipe.r
EVA2.flueGasZone[2].tube.HT[1].geoPipe.zeta_add
EVA2.flueGasZone[2].tube.HT[1].geoPipe.isCylindric
EVA2.flueGasZone[2].tube.HT[1].geoPipe.A
EVA2.flueGasZone[2].tube.HT[1].diameterInner
EVA2.flueGasZone[2].tube.HT[1].steamQuality
EVA2.flueGasZone[2].tube.HT[1].dT
EVA2.flueGasZone[2].tube.HT[1].xdo
EVA2.flueGasZone[2].tube.HT[1].isSinglePhase
EVA2.flueGasZone[2].tube.HT[1].A
EVA2.flueGasZone[2].tube.HT[2].geoPipe.Nt
EVA2.flueGasZone[2].tube.HT[2].geoPipe.L
EVA2.flueGasZone[2].tube.HT[2].geoPipe.H
EVA2.flueGasZone[2].tube.HT[2].geoPipe.d_out
EVA2.flueGasZone[2].tube.HT[2].geoPipe.s
EVA2.flueGasZone[2].tube.HT[2].geoPipe.r
EVA2.flueGasZone[2].tube.HT[2].geoPipe.zeta_add
EVA2.flueGasZone[2].tube.HT[2].geoPipe.isCylindric
EVA2.flueGasZone[2].tube.HT[2].geoPipe.A
EVA2.flueGasZone[2].tube.HT[2].diameterInner
EVA2.flueGasZone[2].tube.HT[2].steamQuality
EVA2.flueGasZone[2].tube.HT[2].dT
EVA2.flueGasZone[2].tube.HT[2].xdo
EVA2.flueGasZone[2].tube.HT[2].isSinglePhase
EVA2.flueGasZone[2].tube.HT[2].A
EVA2.flueGasZone[2].tube.HT[3].geoPipe.Nt
EVA2.flueGasZone[2].tube.HT[3].geoPipe.L
EVA2.flueGasZone[2].tube.HT[3].geoPipe.H
EVA2.flueGasZone[2].tube.HT[3].geoPipe.d_out
EVA2.flueGasZone[2].tube.HT[3].geoPipe.s
EVA2.flueGasZone[2].tube.HT[3].geoPipe.r
EVA2.flueGasZone[2].tube.HT[3].geoPipe.zeta_add
EVA2.flueGasZone[2].tube.HT[3].geoPipe.isCylindric
EVA2.flueGasZone[2].tube.HT[3].geoPipe.A
EVA2.flueGasZone[2].tube.HT[3].diameterInner
EVA2.flueGasZone[2].tube.HT[3].steamQuality
EVA2.flueGasZone[2].tube.HT[3].dT
EVA2.flueGasZone[2].tube.HT[3].xdo
EVA2.flueGasZone[2].tube.HT[3].isSinglePhase
EVA2.flueGasZone[2].tube.HT[3].A
EVA2.flueGasZone[2].tube.HT[4].geoPipe.Nt
EVA2.flueGasZone[2].tube.HT[4].geoPipe.L
EVA2.flueGasZone[2].tube.HT[4].geoPipe.H
EVA2.flueGasZone[2].tube.HT[4].geoPipe.d_out
EVA2.flueGasZone[2].tube.HT[4].geoPipe.s
EVA2.flueGasZone[2].tube.HT[4].geoPipe.r
EVA2.flueGasZone[2].tube.HT[4].geoPipe.zeta_add
EVA2.flueGasZone[2].tube.HT[4].geoPipe.isCylindric
EVA2.flueGasZone[2].tube.HT[4].geoPipe.A
EVA2.flueGasZone[2].tube.HT[4].diameterInner
EVA2.flueGasZone[2].tube.HT[4].steamQuality
EVA2.flueGasZone[2].tube.HT[4].dT
EVA2.flueGasZone[2].tube.HT[4].xdo
EVA2.flueGasZone[2].tube.HT[4].isSinglePhase
EVA2.flueGasZone[2].tube.HT[4].A
EVA2.flueGasZone[2].tube.HT[5].geoPipe.Nt
EVA2.flueGasZone[2].tube.HT[5].geoPipe.L
EVA2.flueGasZone[2].tube.HT[5].geoPipe.H
EVA2.flueGasZone[2].tube.HT[5].geoPipe.d_out
EVA2.flueGasZone[2].tube.HT[5].geoPipe.s
EVA2.flueGasZone[2].tube.HT[5].geoPipe.r
EVA2.flueGasZone[2].tube.HT[5].geoPipe.zeta_add
EVA2.flueGasZone[2].tube.HT[5].geoPipe.isCylindric
EVA2.flueGasZone[2].tube.HT[5].geoPipe.A
EVA2.flueGasZone[2].tube.HT[5].diameterInner
EVA2.flueGasZone[2].tube.HT[5].steamQuality
EVA2.flueGasZone[2].tube.HT[5].dT
EVA2.flueGasZone[2].tube.HT[5].xdo
EVA2.flueGasZone[2].tube.HT[5].isSinglePhase
EVA2.flueGasZone[2].tube.HT[5].A
EVA2.flueGasZone[2].heatTransfer.numberOfNodes
EVA2.flueGasZone[2].heatTransfer.lengthRe
EVA2.flueGasZone[2].heatTransfer.lengthNu
EVA2.flueGasZone[2].heatTransfer.ACrossFlow
EVA2.flueGasZone[2].heatTransfer.AHeatTransfer
EVA2.flueGasZone[2].heatTransfer.geoFGZ.pt
EVA2.flueGasZone[2].heatTransfer.geoFGZ.pl
EVA2.flueGasZone[2].heatTransfer.geoFGZ.Lw
EVA2.flueGasZone[2].heatTransfer.geoFGZ.Ld
EVA2.flueGasZone[2].heatTransfer.geoFGZ.Lh
EVA2.flueGasZone[2].heatTransfer.geoFGZ.Nr
EVA2.flueGasZone[2].heatTransfer.geoFGZ.staggered
EVA2.flueGasZone[2].heatTransfer.geoFins.finned
EVA2.flueGasZone[2].heatTransfer.geoFins.serrated
EVA2.flueGasZone[2].heatTransfer.geoFins.h
EVA2.flueGasZone[2].heatTransfer.geoFins.s
EVA2.flueGasZone[2].heatTransfer.geoFins.b
EVA2.flueGasZone[2].heatTransfer.geoFins.w
EVA2.flueGasZone[2].heatTransfer.geoFins.n
EVA2.flueGasZone[2].heatTransfer.geoPipe.Nt
EVA2.flueGasZone[2].heatTransfer.geoPipe.L
EVA2.flueGasZone[2].heatTransfer.geoPipe.H
EVA2.flueGasZone[2].heatTransfer.geoPipe.d_out
EVA2.flueGasZone[2].heatTransfer.geoPipe.s
EVA2.flueGasZone[2].heatTransfer.geoPipe.r
EVA2.flueGasZone[2].heatTransfer.geoPipe.zeta_add
EVA2.flueGasZone[2].heatTransfer.geoPipe.isCylindric
EVA2.flueGasZone[2].heatTransfer.geoPipe.A
EVA2.flueGasZone[2].heatTransfer.alpha_start
EVA2.flueGasZone[2].heatTransfer.state.p
EVA2.flueGasZone[2].heatTransfer.state.T
EVA2.flueGasZone[2].heatTransfer.state.X[1]
EVA2.flueGasZone[2].heatTransfer.state.X[2]
EVA2.flueGasZone[2].heatTransfer.state.X[3]
EVA2.flueGasZone[2].heatTransfer.state.X[4]
EVA2.flueGasZone[2].heatTransfer.state.X[5]
EVA2.flueGasZone[2].heatTransfer.state.X[6]
EVA2.flueGasZone[2].heatTransfer.Re
EVA2.flueGasZone[2].heatTransfer.Pr
EVA2.flueGasZone[2].heatTransfer.Nu[1]
EVA2.flueGasZone[2].heatTransfer.Nu[2]
EVA2.flueGasZone[2].heatTransfer.Nu[3]
EVA2.flueGasZone[2].heatTransfer.Nu[4]
EVA2.flueGasZone[2].heatTransfer.Nu[5]
EVA2.flueGasZone[2].heatTransfer.cp
EVA2.flueGasZone[2].heatTransfer.eta
EVA2.flueGasZone[2].heatTransfer.lambda
EVA2.flueGasZone[2].heatTransfer.Psi
EVA2.flueGasZone[2].heatTransfer.heatingSurfaceFactor_set
EVA2.flueGasZone[2].mediumGasOut.h
EVA2.flueGasZone[2].mediumGasOut.der(h)
EVA2.flueGasZone[2].mediumGasOut.d
EVA2.flueGasZone[2].mediumGasOut.X[1]
EVA2.flueGasZone[2].mediumGasOut.X[2]
EVA2.flueGasZone[2].mediumGasOut.X[3]
EVA2.flueGasZone[2].mediumGasOut.X[4]
EVA2.flueGasZone[2].mediumGasOut.X[5]
EVA2.flueGasZone[2].mediumGasOut.X[6]
EVA2.flueGasZone[2].mediumGasOut.u
EVA2.flueGasZone[2].mediumGasOut.R
EVA2.flueGasZone[2].mediumGasOut.MM
EVA2.flueGasZone[2].mediumGasOut.state.p
EVA2.flueGasZone[2].mediumGasOut.state.T
EVA2.flueGasZone[2].mediumGasOut.state.X[1]
EVA2.flueGasZone[2].mediumGasOut.state.X[2]
EVA2.flueGasZone[2].mediumGasOut.state.X[3]
EVA2.flueGasZone[2].mediumGasOut.state.X[4]
EVA2.flueGasZone[2].mediumGasOut.state.X[5]
EVA2.flueGasZone[2].mediumGasOut.state.X[6]
EVA2.flueGasZone[2].mediumGasOut.preferredMediumStates
EVA2.flueGasZone[2].mediumGasOut.standardOrderComponents
EVA2.flueGasZone[2].mediumGasOut.T_degC
EVA2.flueGasZone[2].mediumGasOut.p_bar
EVA2.flueGasZone[2].mediumGas.h
EVA2.flueGasZone[2].mediumGas.d
EVA2.flueGasZone[2].mediumGas.X[1]
EVA2.flueGasZone[2].mediumGas.X[2]
EVA2.flueGasZone[2].mediumGas.X[3]
EVA2.flueGasZone[2].mediumGas.X[4]
EVA2.flueGasZone[2].mediumGas.X[5]
EVA2.flueGasZone[2].mediumGas.X[6]
EVA2.flueGasZone[2].mediumGas.u
EVA2.flueGasZone[2].mediumGas.R
EVA2.flueGasZone[2].mediumGas.MM
EVA2.flueGasZone[2].mediumGas.state.p
EVA2.flueGasZone[2].mediumGas.state.T
EVA2.flueGasZone[2].mediumGas.state.X[1]
EVA2.flueGasZone[2].mediumGas.state.X[2]
EVA2.flueGasZone[2].mediumGas.state.X[3]
EVA2.flueGasZone[2].mediumGas.state.X[4]
EVA2.flueGasZone[2].mediumGas.state.X[5]
EVA2.flueGasZone[2].mediumGas.state.X[6]
EVA2.flueGasZone[2].mediumGas.preferredMediumStates
EVA2.flueGasZone[2].mediumGas.standardOrderComponents
EVA2.flueGasZone[2].mediumGas.T_degC
EVA2.flueGasZone[2].mediumGas.p_bar
EVA2.flueGasZone[2].mediumGasIn.d
EVA2.flueGasZone[2].mediumGasIn.X[1]
EVA2.flueGasZone[2].mediumGasIn.X[2]
EVA2.flueGasZone[2].mediumGasIn.X[3]
EVA2.flueGasZone[2].mediumGasIn.X[4]
EVA2.flueGasZone[2].mediumGasIn.X[5]
EVA2.flueGasZone[2].mediumGasIn.X[6]
EVA2.flueGasZone[2].mediumGasIn.u
EVA2.flueGasZone[2].mediumGasIn.R
EVA2.flueGasZone[2].mediumGasIn.MM
EVA2.flueGasZone[2].mediumGasIn.state.p
EVA2.flueGasZone[2].mediumGasIn.state.T
EVA2.flueGasZone[2].mediumGasIn.state.X[1]
EVA2.flueGasZone[2].mediumGasIn.state.X[2]
EVA2.flueGasZone[2].mediumGasIn.state.X[3]
EVA2.flueGasZone[2].mediumGasIn.state.X[4]
EVA2.flueGasZone[2].mediumGasIn.state.X[5]
EVA2.flueGasZone[2].mediumGasIn.state.X[6]
EVA2.flueGasZone[2].mediumGasIn.preferredMediumStates
EVA2.flueGasZone[2].mediumGasIn.standardOrderComponents
EVA2.flueGasZone[2].mediumGasIn.T_degC
EVA2.flueGasZone[2].mediumGasIn.p_bar
EVA2.flueGasZone[2].state_gas.X[1]
EVA2.flueGasZone[2].state_gas.X[2]
EVA2.flueGasZone[2].state_gas.X[3]
EVA2.flueGasZone[2].state_gas.X[4]
EVA2.flueGasZone[2].state_gas.X[5]
EVA2.flueGasZone[2].state_gas.X[6]
EVA2.flueGasZone[2].V_gas
EVA2.flueGasZone[2].deltaT[1]
EVA2.flueGasZone[2].deltaT[2]
EVA2.flueGasZone[2].deltaT[3]
EVA2.flueGasZone[2].deltaT[4]
EVA2.flueGasZone[2].deltaT[5]
EVA2.flueGasZone[2].T_start[1]
EVA2.flueGasZone[2].T_start[2]
EVA2.flueGasZone[2].T_start[3]
EVA2.flueGasZone[2].T_start[4]
EVA2.flueGasZone[2].T_start[5]
EVA2.flueGasZone[2].lengthCharacteristicRe
EVA2.flueGasZone[2].Ah
EVA2.flueGasZone[2].temperatureRate[1]
EVA2.flueGasZone[2].temperatureRate[2]
EVA2.flueGasZone[2].temperatureRate[3]
EVA2.flueGasZone[2].temperatureRate[4]
EVA2.flueGasZone[2].temperatureRate[5]
EVA2.flueGasZone[2].fins.pi
EVA2.flueGasZone[2].fins.numberOfNodes
EVA2.flueGasZone[2].fins.geoFins.finned
EVA2.flueGasZone[2].fins.geoFins.serrated
EVA2.flueGasZone[2].fins.geoFins.h
EVA2.flueGasZone[2].fins.geoFins.s
EVA2.flueGasZone[2].fins.geoFins.b
EVA2.flueGasZone[2].fins.geoFins.w
EVA2.flueGasZone[2].fins.geoFins.n
EVA2.flueGasZone[2].fins.geoPipe.Nt
EVA2.flueGasZone[2].fins.geoPipe.L
EVA2.flueGasZone[2].fins.geoPipe.H
EVA2.flueGasZone[2].fins.geoPipe.d_out
EVA2.flueGasZone[2].fins.geoPipe.s
EVA2.flueGasZone[2].fins.geoPipe.r
EVA2.flueGasZone[2].fins.geoPipe.zeta_add
EVA2.flueGasZone[2].fins.geoPipe.isCylindric
EVA2.flueGasZone[2].fins.geoPipe.A
EVA2.flueGasZone[2].fins.metal.cp
EVA2.flueGasZone[2].fins.metal.lambda
EVA2.flueGasZone[2].fins.metal.rho
EVA2.flueGasZone[2].fins.T_start[1]
EVA2.flueGasZone[2].fins.T_start[2]
EVA2.flueGasZone[2].fins.T_start[3]
EVA2.flueGasZone[2].fins.T_start[4]
EVA2.flueGasZone[2].fins.T_start[5]
EVA2.flueGasZone[2].fins.useDynamicEquations
EVA2.flueGasZone[2].fins.T[1]
EVA2.flueGasZone[2].fins.der(T[1])
EVA2.flueGasZone[2].fins.T[2]
EVA2.flueGasZone[2].fins.der(T[2])
EVA2.flueGasZone[2].fins.T[3]
EVA2.flueGasZone[2].fins.der(T[3])
EVA2.flueGasZone[2].fins.T[4]
EVA2.flueGasZone[2].fins.der(T[4])
EVA2.flueGasZone[2].fins.T[5]
EVA2.flueGasZone[2].fins.der(T[5])
EVA2.flueGasZone[2].fins.V
EVA2.flueGasZone[2].fins.M
EVA2.flueGasZone[2].fins.Cp
EVA2.flueGasZone[2].heatPortToGas.numberOfNodes
EVA2.flueGasZone[2].heatPortToGas.Q_flow[1]
EVA2.flueGasZone[2].heatPortToGas.Q_flow[2]
EVA2.flueGasZone[2].heatPortToGas.Q_flow[3]
EVA2.flueGasZone[2].heatPortToGas.Q_flow[4]
EVA2.flueGasZone[2].heatPortToGas.Q_flow[5]
EVA2.splitter.numberOfPortsSplit
EVA2.splitter.p_start
EVA2.splitter.useTemperatureStartValue
EVA2.splitter.h_start
EVA2.splitter.T_start
EVA2.splitter.X_start[1]
EVA2.splitter.m_flow_start
EVA2.splitter.m_flowOpposite_start[1]
EVA2.splitter.m_flowOpposite_start[2]
EVA2.splitter.initializeSteadyMassBalance
EVA2.splitter.initializeSteadyEnthalpyBalance
EVA2.splitter.initializeFixedPressure
EVA2.splitter.initializeFixedEnthalpy
EVA2.splitter.hasVolume
EVA2.splitter.V
EVA2.splitter.hasPressureDrop
EVA2.splitter.resistanceHydraulic
EVA2.splitter.portsSplit[1].m_flow
EVA2.splitter.portsSplit[1].p
EVA2.splitter.portsSplit[2].m_flow
EVA2.splitter.portsSplit[2].p
EVA2.splitter.medium.h
EVA2.splitter.medium.d
EVA2.splitter.medium.T
EVA2.splitter.medium.X[1]
EVA2.splitter.medium.u
EVA2.splitter.medium.R
EVA2.splitter.medium.MM
EVA2.splitter.medium.preferredMediumStates
EVA2.splitter.medium.standardOrderComponents
EVA2.splitter.medium.T_degC
EVA2.splitter.medium.p_bar
EVA2.splitter.medium.sat.Tsat
EVA2.splitter.medium.phase
EVA2.splitter.m_flowFromPortMix
EVA2.splitter.m_flowFromPortsSplit[1]
EVA2.splitter.m_flowFromPortsSplit[2]
EVA2.mixer.numberOfPortsSplit
EVA2.mixer.p_start
EVA2.mixer.useTemperatureStartValue
EVA2.mixer.h_start
EVA2.mixer.T_start
EVA2.mixer.X_start[1]
EVA2.mixer.m_flow_start
EVA2.mixer.m_flowOpposite_start[1]
EVA2.mixer.m_flowOpposite_start[2]
EVA2.mixer.initializeSteadyMassBalance
EVA2.mixer.initializeSteadyEnthalpyBalance
EVA2.mixer.initializeFixedPressure
EVA2.mixer.initializeFixedEnthalpy
EVA2.mixer.hasVolume
EVA2.mixer.V
EVA2.mixer.hasPressureDrop
EVA2.mixer.resistanceHydraulic
EVA2.mixer.portMix.m_flow
EVA2.mixer.portsSplit[1].m_flow
EVA2.mixer.portsSplit[2].m_flow
EVA2.mixer.medium.h
EVA2.mixer.medium.d
EVA2.mixer.medium.T
EVA2.mixer.medium.X[1]
EVA2.mixer.medium.u
EVA2.mixer.medium.R
EVA2.mixer.medium.MM
EVA2.mixer.medium.preferredMediumStates
EVA2.mixer.medium.standardOrderComponents
EVA2.mixer.medium.T_degC
EVA2.mixer.medium.p_bar
EVA2.mixer.medium.sat.Tsat
EVA2.mixer.medium.phase
EVA2.mixer.m_flowFromPortMix
EVA2.mixer.m_flowFromPortsSplit[1]
EVA2.mixer.m_flowFromPortsSplit[2]
EVA2.portGasIn.Xi_outflow[1]
EVA2.portGasIn.Xi_outflow[2]
EVA2.portGasIn.Xi_outflow[3]
EVA2.portGasIn.Xi_outflow[4]
EVA2.portGasIn.Xi_outflow[5]
EVA2.portGasIn.Xi_outflow[6]
downcomer.hIn
downcomer.hOut
downcomer.preferredStates
downcomer.m_flow_start
downcomer.pIn_start
downcomer.pOut_start
downcomer.useTemperatureStartValue
downcomer.hIn_start
downcomer.hOut_start
downcomer.TIn_start
downcomer.TOut_start
downcomer.XIn_start[1]
downcomer.XOut_start[1]
downcomer.useSubstanceStorage
downcomer.useEnergyStorage
downcomer.portIn.m_flow
downcomer.portIn.p
downcomer.portOut.m_flow
downcomer.portOut.p
downcomer.dp
downcomer.state_from_a.phase
downcomer.state_from_a.d
downcomer.state_from_a.T
downcomer.state_from_b.phase
downcomer.state_from_b.d
downcomer.state_from_b.T
downcomer.g
downcomer.pi
downcomer.numberOfNodes
downcomer.geoPipe.Nt
downcomer.geoPipe.L
downcomer.geoPipe.H
downcomer.geoPipe.d_out
downcomer.geoPipe.s
downcomer.geoPipe.r
downcomer.geoPipe.zeta_add
downcomer.geoPipe.isCylindric
downcomer.geoPipe.A
downcomer.initializeInletPressure
downcomer.initializeSteadyStateEnthalpies
downcomer.initializeSteadyStateInletEnthalpy
downcomer.h_start[1]
downcomer.h_start[2]
downcomer.h_start[3]
downcomer.h_start[4]
downcomer.h_start[5]
downcomer.Q_flow_start[1]
downcomer.Q_flow_start[2]
downcomer.Q_flow_start[3]
downcomer.Q_flow_start[4]
downcomer.Q_flow_start[5]
downcomer.additionalVolume
downcomer.useDynamicMassBalance
downcomer.considerDynamicMomentum
downcomer.considerDynamicPressure
downcomer.heatedArea
downcomer.diameterInner
downcomer.dz
downcomer.V
downcomer.A
downcomer.VTotal
downcomer.VCell
downcomer.sinphi
downcomer.fluid[1].h
downcomer.fluid[1].der(h)
downcomer.fluid[1].X[1]
downcomer.fluid[1].u
downcomer.fluid[1].R
downcomer.fluid[1].MM
downcomer.fluid[1].preferredMediumStates
downcomer.fluid[1].standardOrderComponents
downcomer.fluid[1].T_degC
downcomer.fluid[1].p_bar
downcomer.fluid[1].sat.Tsat
downcomer.fluid[1].phase
downcomer.fluid[2].p
downcomer.fluid[2].der(p)
downcomer.fluid[2].h
downcomer.fluid[2].der(h)
downcomer.fluid[2].X[1]
downcomer.fluid[2].u
downcomer.fluid[2].R
downcomer.fluid[2].MM
downcomer.fluid[2].preferredMediumStates
downcomer.fluid[2].standardOrderComponents
downcomer.fluid[2].T_degC
downcomer.fluid[2].p_bar
downcomer.fluid[2].sat.Tsat
downcomer.fluid[2].phase
downcomer.fluid[3].h
downcomer.fluid[3].der(h)
downcomer.fluid[3].X[1]
downcomer.fluid[3].u
downcomer.fluid[3].R
downcomer.fluid[3].MM
downcomer.fluid[3].preferredMediumStates
downcomer.fluid[3].standardOrderComponents
downcomer.fluid[3].T_degC
downcomer.fluid[3].p_bar
downcomer.fluid[3].sat.Tsat
downcomer.fluid[3].phase
downcomer.fluid[4].h
downcomer.fluid[4].der(h)
downcomer.fluid[4].X[1]
downcomer.fluid[4].u
downcomer.fluid[4].R
downcomer.fluid[4].MM
downcomer.fluid[4].preferredMediumStates
downcomer.fluid[4].standardOrderComponents
downcomer.fluid[4].T_degC
downcomer.fluid[4].p_bar
downcomer.fluid[4].sat.Tsat
downcomer.fluid[4].phase
downcomer.fluid[5].h
downcomer.fluid[5].der(h)
downcomer.fluid[5].X[1]
downcomer.fluid[5].u
downcomer.fluid[5].R
downcomer.fluid[5].MM
downcomer.fluid[5].preferredMediumStates
downcomer.fluid[5].standardOrderComponents
downcomer.fluid[5].T_degC
downcomer.fluid[5].p_bar
downcomer.fluid[5].sat.Tsat
downcomer.fluid[5].phase
downcomer.m_flows[1]
downcomer.der(m_flows[1])
downcomer.d_av
downcomer.der(d_av)
downcomer.vol_av
downcomer.dpfric
downcomer.dphyd
downcomer.dpHyd_start
downcomer.dpFric_start
downcomer.T_start[1]
downcomer.T_start[2]
downcomer.T_start[3]
downcomer.T_start[4]
downcomer.T_start[5]
downcomer.d_start[1]
downcomer.d_start[2]
downcomer.d_start[3]
downcomer.d_start[4]
downcomer.d_start[5]
downcomer.q_start
downcomer.T[1]
downcomer.T[2]
downcomer.T[3]
downcomer.T[4]
downcomer.T[5]
downcomer.d[1]
downcomer.d[2]
downcomer.d[3]
downcomer.d[4]
downcomer.d[5]
downcomer.der(d[1])
downcomer.der(d[2])
downcomer.der(d[3])
downcomer.der(d[4])
downcomer.der(d[5])
downcomer.vol[1]
downcomer.vol[2]
downcomer.vol[3]
downcomer.vol[4]
downcomer.vol[5]
downcomer.cp[1]
downcomer.cp[2]
downcomer.cp[3]
downcomer.cp[4]
downcomer.cp[5]
downcomer.eta[1]
downcomer.eta[2]
downcomer.eta[3]
downcomer.eta[4]
downcomer.eta[5]
downcomer.lambda[1]
downcomer.lambda[2]
downcomer.lambda[3]
downcomer.lambda[4]
downcomer.lambda[5]
downcomer.E_flows[1]
downcomer.E_flows[2]
downcomer.E_flows[3]
downcomer.E_flows[4]
downcomer.E_flows[5]
downcomer.qHeating[1]
downcomer.qHeating[2]
downcomer.qHeating[3]
downcomer.qHeating[4]
downcomer.qHeating[5]
downcomer.useDelayedPressure
downcomer.timeDelayOfPressure
downcomer.hydM
downcomer.hydP
downcomer.friction.geoPipe.Nt
downcomer.friction.geoPipe.L
downcomer.friction.geoPipe.H
downcomer.friction.geoPipe.d_out
downcomer.friction.geoPipe.s
downcomer.friction.geoPipe.r
downcomer.friction.geoPipe.zeta_add
downcomer.friction.geoPipe.isCylindric
downcomer.friction.geoPipe.A
downcomer.friction.dz
downcomer.friction.lambda
downcomer.friction.steamQuality
downcomer.friction.xdo
downcomer.friction.isSinglePhase
downcomer.friction.m_flowLaminar
downcomer.friction.diameterInner
downcomer.friction.A
downcomer.friction.zeta
gasSourceW.gas.d
gasSourceW.gas.X[1]
gasSourceW.gas.X[2]
gasSourceW.gas.X[3]
gasSourceW.gas.X[4]
gasSourceW.gas.X[5]
gasSourceW.gas.X[6]
gasSourceW.gas.u
gasSourceW.gas.R
gasSourceW.gas.MM
gasSourceW.gas.state.p
gasSourceW.gas.state.T
gasSourceW.gas.state.X[1]
gasSourceW.gas.state.X[2]
gasSourceW.gas.state.X[3]
gasSourceW.gas.state.X[4]
gasSourceW.gas.state.X[5]
gasSourceW.gas.state.X[6]
gasSourceW.gas.preferredMediumStates
gasSourceW.gas.standardOrderComponents
gasSourceW.gas.T_degC
gasSourceW.gas.p_bar
gasSourceW.p_start
gasSourceW.T_start
gasSourceW.Xi_start[1]
gasSourceW.Xi_start[2]
gasSourceW.Xi_start[3]
gasSourceW.Xi_start[4]
gasSourceW.Xi_start[5]
gasSourceW.Xi_start[6]
gasSourceW.m_flow_start
gasSourceW.TPortActual
gasSourceW.port.h_outflow
gasSourceW.port.Xi_outflow[1]
gasSourceW.port.Xi_outflow[2]
gasSourceW.port.Xi_outflow[3]
gasSourceW.port.Xi_outflow[4]
gasSourceW.port.Xi_outflow[5]
gasSourceW.port.Xi_outflow[6]
gasSinkP.p_start
gasSinkP.T_start
gasSinkP.Xi_start[1]
gasSinkP.Xi_start[2]
gasSinkP.Xi_start[3]
gasSinkP.Xi_start[4]
gasSinkP.Xi_start[5]
gasSinkP.Xi_start[6]
gasSinkP.portGas.h_outflow
gasSinkP.portGas.Xi_outflow[1]
gasSinkP.portGas.Xi_outflow[2]
gasSinkP.portGas.Xi_outflow[3]
gasSinkP.portGas.Xi_outflow[4]
gasSinkP.portGas.Xi_outflow[5]
gasSinkP.portGas.Xi_outflow[6]
gasSinkP.gas.d
gasSinkP.gas.X[1]
gasSinkP.gas.X[2]
gasSinkP.gas.X[3]
gasSinkP.gas.X[4]
gasSinkP.gas.X[5]
gasSinkP.gas.X[6]
gasSinkP.gas.u
gasSinkP.gas.R
gasSinkP.gas.MM
gasSinkP.gas.state.p
gasSinkP.gas.state.T
gasSinkP.gas.state.X[1]
gasSinkP.gas.state.X[2]
gasSinkP.gas.state.X[3]
gasSinkP.gas.state.X[4]
gasSinkP.gas.state.X[5]
gasSinkP.gas.state.X[6]
gasSinkP.gas.preferredMediumStates
gasSinkP.gas.standardOrderComponents
gasSinkP.gas.T_degC
gasSinkP.gas.p_bar
gasSinkP.TPortActual
watersink_ph.p_start
watersink_ph.h_start
watersink_ph.hPortActual
watersink_ph.water.d
watersink_ph.water.T
watersink_ph.water.X[1]
watersink_ph.water.u
watersink_ph.water.R
watersink_ph.water.MM
watersink_ph.water.preferredMediumStates
watersink_ph.water.standardOrderComponents
watersink_ph.water.T_degC
watersink_ph.water.p_bar
watersink_ph.water.sat.Tsat
watersink_ph.water.phase
_GlobalScope.Modelica.Media.Interfaces.PartialPureSubstance.X_default[1]
watersource_mh.m_flow_start
watersource_mh.h_start
watersource_mh.h_port_actual
watersource_mh.medium.d
watersource_mh.medium.T
watersource_mh.medium.X[1]
watersource_mh.medium.u
watersource_mh.medium.R
watersource_mh.medium.MM
watersource_mh.medium.preferredMediumStates
watersource_mh.medium.standardOrderComponents
watersource_mh.medium.T_degC
watersource_mh.medium.p_bar
watersource_mh.medium.sat.Tsat
watersource_mh.medium.phase
timeTable.table[1, 1]
timeTable.table[1, 2]
timeTable.table[2, 1]
timeTable.table[2, 2]
timeTable.table[3, 1]
timeTable.table[3, 2]
timeTable.table[4, 1]
timeTable.table[4, 2]
timeTable.timeDelay
timeTable.originalTable.table[1, 1]
timeTable.originalTable.table[1, 2]
timeTable.originalTable.table[2, 1]
timeTable.originalTable.table[2, 2]
timeTable.originalTable.table[3, 1]
timeTable.originalTable.table[3, 2]
timeTable.originalTable.table[4, 1]
timeTable.originalTable.table[4, 2]
timeTable.originalTable.offset
timeTable.originalTable.startTime
timeTable.originalTable.y
timeTable.originalTable.a
timeTable.originalTable.b
timeTable.originalTable.last
timeTable.originalTable.nextEvent
timeTable.C1signal.y
timeTable.C1signal.der(y)
timeTable.C1signal.timeDelay
timeTable1.table[1, 1]
timeTable1.table[1, 2]
timeTable1.table[2, 1]
timeTable1.table[2, 2]
timeTable1.table[3, 1]
timeTable1.table[3, 2]
timeTable1.table[4, 1]
timeTable1.table[4, 2]
timeTable1.timeDelay
timeTable1.originalTable.table[1, 1]
timeTable1.originalTable.table[1, 2]
timeTable1.originalTable.table[2, 1]
timeTable1.originalTable.table[2, 2]
timeTable1.originalTable.table[3, 1]
timeTable1.originalTable.table[3, 2]
timeTable1.originalTable.table[4, 1]
timeTable1.originalTable.table[4, 2]
timeTable1.originalTable.offset
timeTable1.originalTable.startTime
timeTable1.originalTable.y
timeTable1.originalTable.a
timeTable1.originalTable.b
timeTable1.originalTable.last
timeTable1.originalTable.nextEvent
timeTable1.C1signal.y
timeTable1.C1signal.der(y)
timeTable1.C1signal.timeDelay

double initialValue(5458,6)
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.numberOfTubeLayers
  0       5                       0                       0                
  6   258   # EVA1.numberOfCellsPerLayer
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.numberOfWallLayers
 -1       2                       0                       0                
  1   280   # EVA1.hydraulicResistanceGasFLow
 -1  9.000000000000000E-002       0                       0                
  1   280   # EVA1.geoFGZ.pt
 -1  9.000000000000000E-002       0                       0                
  1   280   # EVA1.geoFGZ.pl
 -1  3.600000000000000E+000       0                       0                
  1   280   # EVA1.geoFGZ.Lw
 -1      21                       0                       0                
  1   280   # EVA1.geoFGZ.Ld
 -1  1.800000000000000E-001       0                       0                
  1   280   # EVA1.geoFGZ.Lh
 -1      14                       0                       0                
  1   282   # EVA1.geoFGZ.Nr
 -1       1                       0                       0                
  1   281   # EVA1.geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA1.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.geoFins.serrated
 -1  1.900000000000000E-002       0                       0                
  1   280   # EVA1.geoFins.h
 -1  1.250000000000000E-003       0                       0                
  1   280   # EVA1.geoFins.s
 -1  5.000000000000000E-003       0                       0                
  1   280   # EVA1.geoFins.b
 -1  4.400000000000000E-003       0                       0                
  1   280   # EVA1.geoFins.w
 -1     300                       0                       0                
  1   280   # EVA1.geoFins.n
 -1     540                       0                       0                
  1   280   # EVA1.propertiesMetal.cp
 -1      40                       0                       0                
  1   280   # EVA1.propertiesMetal.lambda
 -1    7850                       0                  1.000000000000000E+100
  1   280   # EVA1.propertiesMetal.rho
  0      78                       0                       0                
  6   258   # EVA1.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.geoPipe.L
 -1      21                       0                       0                
  1   280   # EVA1.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.geoPipe.s
 -1  3.000000000000000E-005       0                       0                
  1   280   # EVA1.geoPipe.r
 -1  7.500000000000000E-001       0                       0                
  1   280   # EVA1.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.geoPipe.A
  0       0                       0                       0                
  6   257   # EVA1.delayInnerHeatTransfer
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA1.timeDelayOfInnerHeatTransfer
 -1       1                       0                       0                
  1   280   # EVA1.cleanlinessFactor
 -1  5.000000000000000E-001       0                       0                
  1   280   # EVA1.heatloss
  0       0                       0                       0                
  6   257   # EVA1.hasMixerVolume
 -1       1                       0                       0                
  1   280   # EVA1.V
 -1    7000                       0                       0                
  1   280   # EVA1.hydraulicResistanceSplitterOut
 -1  2.286800000000000E+002       0                       0                
  1   280   # EVA1.m_flowGas_start
 -1     390                       1                   10000                
  1   280   # EVA1.TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA1.TGasOut_start
 -1  2.587000000000000E+001       0                       0                
  1   280   # EVA1.m_flow_start
  0  1.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.pIn_start
 -1  1.370000000000000E+007       0                  1.000000000000000E+008
  1   280   # EVA1.pOut_start
 -1  5.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  1   280   # EVA1.hIn_start
  0  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.hOut_start
  0       1                       0                       0                
  6   257   # EVA1.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA1.useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.initializeWithZeroInnerHeatFlow
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[1].pi
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[1].numberOfTubeNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].numberOfWallLayers
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].hydraulicResistance_gas
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].timeDelayOfInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].pOut_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].hOut_start
 -1  100000                       0                  1.000000000000000E+008
  1   280   # EVA1.flueGasZone[1].pGas_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].TGasOut_start
  0       0                 -100000                  100000                
  6   256   # EVA1.flueGasZone[1].m_flowGas_start
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].initializeWithZeroInnerHeatFlow
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[1].geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[1].geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[1].geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[1].geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].metal.rho
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].cleanliness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].computeHeatLossInPercent
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatloss
 -1  4.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[1].kLossToAmbient
 -1     300                       1                   10000                
  1   280   # EVA1.flueGasZone[1].T_ambient
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].Q_flowToAmbient[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].Q_flowToAmbient[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].Q_flowToAmbient[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].Q_flowToAmbient[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].Q_flowToAmbient[5]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.hOut
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.preferredStates
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.pOut_start
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.hOut_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.TIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.TOut_start
 -1       1                       0                       1                
  1   280   # EVA1.flueGasZone[1].tube.XIn_start[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].tube.XOut_start[1]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.useSubstanceStorage
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.useEnergyStorage
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.dp
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[1].tube.state_from_a.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[1].tube.state_from_a.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.state_from_a.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.state_from_a.T
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[1].tube.state_from_b.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[1].tube.state_from_b.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.state_from_b.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.g
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].tube.numberOfNodes
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[1].tube.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.geoPipe.A
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.h_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.additionalVolume
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.considerDynamicPressure
  0  1.688893821191580E+002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.heatedArea
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.diameterInner
  0  4.200000000000000E+000       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.dz
  0  1.776586384984220E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.V
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.A
  0  1.385737380287690E+000       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.VTotal
  0  3.553172769968450E-003       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.VCell
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[1].tube.fluid[1].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[1].tube.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].tube.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].tube.fluid[1].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[1].tube.fluid[1].phase
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].molarMass
  0  6.470960000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].criticalTemperature
  0  2.206400000000000E+007       0                  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].criticalPressure
  0  5.594803726708070E-005  1.000000000000000E-006  1.000000000000000E+006
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].criticalMolarVolume
  0  3.440000000000000E-001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].acentricFactor
  0  2.731600000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].triplePointTemperature
  0  6.116570000000000E+002       0                  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].triplePointPressure
  0  2.731500000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].meltingPoint
  0  3.731240000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].normalBoilingPoint
  0  1.800000000000000E+000       0                       2                
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].dipoleMoment
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasIdealGasHeatCapacity
  0       1                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasCriticalData
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasDipoleMoment
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasFundamentalEquation
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasLiquidHeatCapacity
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasSolidHeatCapacity
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasAccurateViscosityData
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasAccurateConductivityData
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasVapourPressureCurve
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.waterConstants[1].hasAcentricFactor
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].HCRIT0
  0       0                 -1.000000000000000E+006  1.000000000000000E+006
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].SCRIT0
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].deltah
  0       0                 -1.000000000000000E+006  1.000000000000000E+006
  6  1280   # _GlobalScope.Modelica.Media.Water.waterConstants[1].deltas
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].molarMass
  0  6.470960000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].criticalTemperature
  0  2.206400000000000E+007       0                  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].criticalPressure
  0  5.594803726708070E-005  1.000000000000000E-006  1.000000000000000E+006
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].criticalMolarVolume
  0  3.440000000000000E-001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].acentricFactor
  0  2.731600000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].triplePointTemperature
  0  6.116570000000000E+002       0                  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].triplePointPressure
  0  2.731500000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].meltingPoint
  0  3.731240000000000E+002       1                   10000                
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].normalBoilingPoint
  0  1.800000000000000E+000       0                       2                
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].dipoleMoment
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasIdealGasHeatCapacity
  0       1                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasCriticalData
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasDipoleMoment
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasFundamentalEquation
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasLiquidHeatCapacity
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasSolidHeatCapacity
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasAccurateViscosityData
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasAccurateConductivityData
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasVapourPressureCurve
  0       0                       0                       0                
  6  1281   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].hasAcentricFactor
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].HCRIT0
  0       0                 -1.000000000000000E+006  1.000000000000000E+006
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].SCRIT0
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].deltah
  0       0                 -1.000000000000000E+006  1.000000000000000E+006
  6  1280   # _GlobalScope.Modelica.Media.Water.WaterIF97_base.fluidConstants[1].deltas
 -1       0                       0                  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[1].tube.fluid[2].p
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[1].tube.fluid[2].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[1].tube.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].tube.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].tube.fluid[2].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[1].tube.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[1].tube.fluid[3].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[1].tube.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].tube.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].tube.fluid[3].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[1].tube.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[1].tube.fluid[4].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[1].tube.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].tube.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].tube.fluid[4].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[1].tube.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[1].tube.fluid[5].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[1].tube.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].tube.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].tube.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].tube.fluid[5].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[1].tube.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # EVA1.flueGasZone[1].tube.m_flows[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # EVA1.flueGasZone[1].tube.d_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.vol_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.dpfric
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.dphyd
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.dpHyd_start
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.dpFric_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T_start[5]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d_start[1]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d_start[2]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d_start[3]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d_start[4]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.q_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.T[5]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d[1]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d[2]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d[3]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d[4]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[1].tube.d[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.der(d[1])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.der(d[2])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.der(d[3])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.der(d[4])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[1].tube.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[1].tube.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[1].tube.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[1].tube.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[1].tube.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[1].tube.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[1].tube.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[1].tube.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[1].tube.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[1].tube.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[1].tube.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[1].tube.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[1].tube.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[1].tube.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[1].tube.eta[5]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[1].tube.lambda[1]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[1].tube.lambda[2]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[1].tube.lambda[3]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[1].tube.lambda[4]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[1].tube.lambda[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.E_flows[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.E_flows[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.E_flows[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.E_flows[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.E_flows[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.qHeating[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.qHeating[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.qHeating[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.qHeating[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.qHeating[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[1].tube.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.hydP
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[1].tube.friction.geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.friction.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.geoPipe.A
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # EVA1.flueGasZone[1].tube.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # EVA1.flueGasZone[1].tube.friction.m_flowLaminar
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.diameterInner
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.A
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.friction.zeta
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.TWall[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.TWall[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.TWall[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.TWall[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].tube.TWall[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.timeDelayOfInnerHeatTransfer
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.initializeWithZeroInnerHeatFlow
 -1   10000                       0                       0                
  1   280   # EVA1.flueGasZone[1].tube.alpha_start
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].tube.numberOfWallLayers
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].tube.TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.metal.rho
 -1  3.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[1].tube.stressCoeffofWall.eta
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[1].tube.stressCoeffofWall.alpha_t
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[1].tube.stressCoeffofWall.alpha_m
 -1  1.400000000000000E-005       0                       0                
  1   280   # EVA1.flueGasZone[1].tube.stressCoeffofWall.beta
 -1  1.800000000000000E+011       0                       0                
  1   280   # EVA1.flueGasZone[1].tube.stressCoeffofWall.E
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.heatPort[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.heatPort[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.heatPort[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.heatPort[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.heatPort[5].Q_flow
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].tube.wall.numberOfNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].tube.wall.numberOfWallLayers
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].tube.wall.numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.T_start[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].tube.wall.layer[1].numberOfNodes
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.layer[1].assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].tube.wall.layer[1].numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.layer[1].useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.layer[1].considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].tube.wall.layer[1].considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].T_start[5]
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.wall.layer[1].port_int[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.wall.layer[1].port_int[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.wall.layer[1].port_int[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.wall.layer[1].port_int[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[1].tube.wall.layer[1].port_int[5].Q_flow
  0  2.940983113102160E-004       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].Am
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[1].tube.wall.layer[1].T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.wall.layer[1].der(T[1])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[1].tube.wall.layer[1].T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.wall.layer[1].der(T[2])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[1].tube.wall.layer[1].T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.wall.layer[1].der(T[3])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[1].tube.wall.layer[1].T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.wall.layer[1].der(T[4])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[1].tube.wall.layer[1].T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].tube.wall.layer[1].der(T[5])
  0  1.641000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].rint
  0  1.905000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].rext
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].Tube_mass
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].HeatCap
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.stress.eta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.stress.alpha_t
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.stress.alpha_m
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.stress.beta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.stress.E
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.dT
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.ft
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.fm
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.wall.tension
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[1].tube.heatport.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.alpha[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.alpha[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.alpha[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.alpha[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].tube.alpha[5]
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[1].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[1].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[2].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[2].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[3].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[3].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[4].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[4].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[1].tube.HT[5].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[1].tube.HT[5].A
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].heatTransfer.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.lengthRe
  0  5.984734005088560E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.lengthNu
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.ACrossFlow
  0  1.960598860067010E+002       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.AHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[1].heatTransfer.geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].heatTransfer.geoFGZ.staggered
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].heatTransfer.geoFins.finned
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].heatTransfer.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[1].heatTransfer.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].heatTransfer.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.geoPipe.A
 -1     200                       0                       0                
  1   280   # EVA1.flueGasZone[1].heatTransfer.alpha_start
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].heatTransfer.state.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Re
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Pr
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Nu[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Nu[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Nu[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Nu[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Nu[5]
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].heatTransfer.cp
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].heatTransfer.eta
  0       1                       0                     500                
  6   256   # EVA1.flueGasZone[1].heatTransfer.lambda
  0       1                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatTransfer.Psi
 -1       1                       0                       0                
  1   280   # EVA1.flueGasZone[1].heatTransfer.heatingSurfaceFactor_set
 -1  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[1].mediumGasOut.h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].mediumGasOut.der(h)
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].mediumGasOut.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].mediumGasOut.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].mediumGasOut.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].mediumGasOut.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].mediumGasOut.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGasOut.p_bar
  0  3.994800000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.MM
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.Hf
  0  1.551373785921700E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.Tlimit
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[1]
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[2]
  0  2.500000000000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[3]
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[4]
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[5]
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[6]
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.alow[7]
  0 -7.453750000000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.blow[1]
  0  4.379674910000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.blow[2]
  0  2.010538475000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[1]
  0 -5.992661070000000E-002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[2]
  0  2.500069401000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[3]
  0 -3.992141160000000E-008       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[4]
  0  1.205272140000000E-011       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[5]
  0 -1.819015576000000E-015       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[6]
  0  1.078576636000000E-019       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.ahigh[7]
  0 -7.449939610000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.bhigh[1]
  0  4.379180110000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.bhigh[2]
  0  2.081323720837090E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.Ar.R
  0  4.400950000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.MM
  0 -8.941478544405179E+006       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.Hf
  0  2.128056215135370E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.Tlimit
  0  4.943650540000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[1]
  0 -6.264116010000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[2]
  0  5.301725240000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[3]
  0  2.503813816000000E-003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[4]
  0 -2.127308728000000E-007       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[5]
  0 -7.689988780000000E-010       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[6]
  0  2.849677801000000E-013       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.alow[7]
  0 -4.528198460000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.blow[1]
  0 -7.048279440000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.blow[2]
  0  1.176962419000000E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[1]
  0 -1.788791477000000E+003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[2]
  0  8.291523190000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[3]
  0 -9.223156780000000E-005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[4]
  0  4.863676880000000E-009       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[5]
  0 -1.891053312000000E-012       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[6]
  0  6.330036590000000E-016       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.ahigh[7]
  0 -3.908350590000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.bhigh[1]
  0 -2.652669281000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.bhigh[2]
  0  1.889244822140670E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.CO2.R
  0  1.801528000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.MM
  0 -1.342338281725290E+007       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.Hf
  0  5.497606476280140E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.Tlimit
  0 -3.947960830000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[1]
  0  5.755731020000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[2]
  0  9.317826530000000E-001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[3]
  0  7.222712860000000E-003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[4]
  0 -7.342557370000000E-006       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[5]
  0  4.955043490000000E-009       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[6]
  0 -1.336933246000000E-012       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.alow[7]
  0 -3.303974310000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.blow[1]
  0  1.724205775000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.blow[2]
  0  1.034972096000000E+006       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[1]
  0 -2.412698562000000E+003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[2]
  0  4.646110780000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[3]
  0  2.291998307000000E-003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[4]
  0 -6.836830480000000E-007       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[5]
  0  9.426468930000000E-011       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[6]
  0 -4.822380530000000E-015       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.ahigh[7]
  0 -1.384286509000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.bhigh[1]
  0 -7.978148510000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.bhigh[2]
  0  4.615233290850880E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.H2O.R
  0  2.801340000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.MM
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.Hf
  0  3.094984543111510E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.Tlimit
  0  2.210371497000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[1]
  0 -3.818461820000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[2]
  0  6.082738360000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[3]
  0 -8.530914410000000E-003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[4]
  0  1.384646189000000E-005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[5]
  0 -9.625793620000000E-009       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[6]
  0  2.519705809000000E-012       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.alow[7]
  0  7.108460860000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.blow[1]
  0 -1.076003744000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.blow[2]
  0  5.877124060000000E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[1]
  0 -2.239249073000000E+003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[2]
  0  6.066949220000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[3]
  0 -6.139685500000000E-004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[4]
  0  1.491806679000000E-007       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[5]
  0 -1.923105485000000E-011       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[6]
  0  1.061954386000000E-015       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.ahigh[7]
  0  1.283210415000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.bhigh[1]
  0 -1.586640027000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.bhigh[2]
  0  2.968033869505310E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.N2.R
  0  3.199880000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.MM
  0       0                       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.Hf
  0  2.712634223783390E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.Tlimit
  0 -3.425563420000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[1]
  0  4.847000970000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[2]
  0  1.119010961000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[3]
  0  4.293889240000000E-003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[4]
  0 -6.836300520000000E-007       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[5]
  0 -2.023372700000000E-009       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[6]
  0  1.039040018000000E-012       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.alow[7]
  0 -3.391454870000000E+003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.blow[1]
  0  1.849699470000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.blow[2]
  0 -1.037939022000000E+006       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[1]
  0  2.344830282000000E+003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[2]
  0  1.819732036000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[3]
  0  1.267847582000000E-003       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[4]
  0 -2.188067988000000E-007       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[5]
  0  2.053719572000000E-011       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[6]
  0 -8.193467050000000E-016       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.ahigh[7]
  0 -1.689010929000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.bhigh[1]
  0  1.738716506000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.bhigh[2]
  0  2.598369938872710E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.O2.R
  0  6.406380000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.MM
  0 -4.633037690552230E+006       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.Hf
  0  1.646503485587810E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.Tlimit
  0 -5.310842140000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[1]
  0  9.090311670000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[2]
  0 -2.356891244000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[3]
  0  2.204449885000000E-002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[4]
  0 -2.510781471000000E-005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[5]
  0  1.446300484000000E-008       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[6]
  0 -3.369070940000000E-012       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.alow[7]
  0 -4.113752080000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.blow[1]
  0  4.045512519000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.blow[2]
  0 -1.127640116000000E+005       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[1]
  0 -8.252261380000000E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[2]
  0  7.616178630000000E+000       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[3]
  0 -1.999327610000000E-004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[4]
  0  5.655631430000000E-008       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[5]
  0 -5.454316610000000E-012       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[6]
  0  2.918294102000000E-016       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.ahigh[7]
  0 -3.351308690000000E+004       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.bhigh[1]
  0 -1.655776085000000E+001       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.bhigh[2]
  0  1.297842463294400E+002       0                       0                
  6  1280   # _GlobalScope.Modelica.Media.IdealGases.Common.SingleGasesData.SO2.R
  0  3.994800000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].MM
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].Hf
  0  1.551373785921700E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].Tlimit
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[1]
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[2]
  0  2.500000000000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[3]
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[4]
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[5]
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[6]
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].alow[7]
  0 -7.453750000000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].blow[1]
  0  4.379674910000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].blow[2]
  0  2.010538475000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[1]
  0 -5.992661070000000E-002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[2]
  0  2.500069401000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[3]
  0 -3.992141160000000E-008       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[4]
  0  1.205272140000000E-011       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[5]
  0 -1.819015576000000E-015       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[6]
  0  1.078576636000000E-019       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].ahigh[7]
  0 -7.449939610000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].bhigh[1]
  0  4.379180110000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].bhigh[2]
  0  2.081323720837090E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[1].R
  0  4.400950000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].MM
  0 -8.941478544405179E+006       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].Hf
  0  2.128056215135370E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].Tlimit
  0  4.943650540000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[1]
  0 -6.264116010000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[2]
  0  5.301725240000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[3]
  0  2.503813816000000E-003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[4]
  0 -2.127308728000000E-007       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[5]
  0 -7.689988780000000E-010       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[6]
  0  2.849677801000000E-013       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].alow[7]
  0 -4.528198460000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].blow[1]
  0 -7.048279440000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].blow[2]
  0  1.176962419000000E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[1]
  0 -1.788791477000000E+003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[2]
  0  8.291523190000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[3]
  0 -9.223156780000000E-005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[4]
  0  4.863676880000000E-009       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[5]
  0 -1.891053312000000E-012       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[6]
  0  6.330036590000000E-016       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].ahigh[7]
  0 -3.908350590000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].bhigh[1]
  0 -2.652669281000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].bhigh[2]
  0  1.889244822140670E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[2].R
  0  1.801528000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].MM
  0 -1.342338281725290E+007       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].Hf
  0  5.497606476280140E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].Tlimit
  0 -3.947960830000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[1]
  0  5.755731020000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[2]
  0  9.317826530000000E-001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[3]
  0  7.222712860000000E-003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[4]
  0 -7.342557370000000E-006       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[5]
  0  4.955043490000000E-009       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[6]
  0 -1.336933246000000E-012       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].alow[7]
  0 -3.303974310000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].blow[1]
  0  1.724205775000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].blow[2]
  0  1.034972096000000E+006       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[1]
  0 -2.412698562000000E+003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[2]
  0  4.646110780000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[3]
  0  2.291998307000000E-003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[4]
  0 -6.836830480000000E-007       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[5]
  0  9.426468930000000E-011       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[6]
  0 -4.822380530000000E-015       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].ahigh[7]
  0 -1.384286509000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].bhigh[1]
  0 -7.978148510000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].bhigh[2]
  0  4.615233290850880E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[3].R
  0  2.801340000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].MM
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].Hf
  0  3.094984543111510E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].Tlimit
  0  2.210371497000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[1]
  0 -3.818461820000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[2]
  0  6.082738360000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[3]
  0 -8.530914410000000E-003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[4]
  0  1.384646189000000E-005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[5]
  0 -9.625793620000000E-009       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[6]
  0  2.519705809000000E-012       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].alow[7]
  0  7.108460860000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].blow[1]
  0 -1.076003744000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].blow[2]
  0  5.877124060000000E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[1]
  0 -2.239249073000000E+003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[2]
  0  6.066949220000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[3]
  0 -6.139685500000000E-004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[4]
  0  1.491806679000000E-007       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[5]
  0 -1.923105485000000E-011       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[6]
  0  1.061954386000000E-015       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].ahigh[7]
  0  1.283210415000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].bhigh[1]
  0 -1.586640027000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].bhigh[2]
  0  2.968033869505310E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[4].R
  0  3.199880000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].MM
  0       0                       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].Hf
  0  2.712634223783390E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].Tlimit
  0 -3.425563420000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[1]
  0  4.847000970000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[2]
  0  1.119010961000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[3]
  0  4.293889240000000E-003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[4]
  0 -6.836300520000000E-007       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[5]
  0 -2.023372700000000E-009       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[6]
  0  1.039040018000000E-012       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].alow[7]
  0 -3.391454870000000E+003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].blow[1]
  0  1.849699470000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].blow[2]
  0 -1.037939022000000E+006       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[1]
  0  2.344830282000000E+003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[2]
  0  1.819732036000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[3]
  0  1.267847582000000E-003       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[4]
  0 -2.188067988000000E-007       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[5]
  0  2.053719572000000E-011       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[6]
  0 -8.193467050000000E-016       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].ahigh[7]
  0 -1.689010929000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].bhigh[1]
  0  1.738716506000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].bhigh[2]
  0  2.598369938872710E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[5].R
  0  6.406380000000000E-002       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].MM
  0 -4.633037690552230E+006       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].Hf
  0  1.646503485587810E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].H0
  0    1000                       0                  1.000000000000000E+100
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].Tlimit
  0 -5.310842140000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[1]
  0  9.090311670000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[2]
  0 -2.356891244000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[3]
  0  2.204449885000000E-002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[4]
  0 -2.510781471000000E-005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[5]
  0  1.446300484000000E-008       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[6]
  0 -3.369070940000000E-012       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].alow[7]
  0 -4.113752080000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].blow[1]
  0  4.045512519000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].blow[2]
  0 -1.127640116000000E+005       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[1]
  0 -8.252261380000000E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[2]
  0  7.616178630000000E+000       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[3]
  0 -1.999327610000000E-004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[4]
  0  5.655631430000000E-008       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[5]
  0 -5.454316610000000E-012       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[6]
  0  2.918294102000000E-016       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].ahigh[7]
  0 -3.351308690000000E+004       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].bhigh[1]
  0 -1.655776085000000E+001       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].bhigh[2]
  0  1.297842463294400E+002       0                       0                
  6  1280   # _GlobalScope.SiemensPower.Media.Common.MixtureGasNasa.data[6].R
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGas.h
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[1].mediumGas.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].mediumGas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].mediumGas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].mediumGas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].mediumGas.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].mediumGas.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGas.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].mediumGas.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].mediumGas.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGas.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGas.p_bar
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.h
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].mediumGasIn.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[1].mediumGasIn.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[1].mediumGasIn.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[1].mediumGasIn.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].mediumGasIn.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].mediumGasIn.p_bar
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].state_gas.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].state_gas.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].state_gas.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].state_gas.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].state_gas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[1].state_gas.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].V_gas
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].deltaT[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].deltaT[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].deltaT[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].deltaT[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].deltaT[5]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[1].T_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].lengthCharacteristicRe
  0  1.960598860067010E+002       0                       0                
  6  1280   # EVA1.flueGasZone[1].Ah
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].temperatureRate[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].temperatureRate[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].temperatureRate[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].temperatureRate[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[1].temperatureRate[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[1].fins.numberOfNodes
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].fins.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].fins.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[1].fins.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].fins.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].fins.metal.rho
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].fins.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].fins.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].fins.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].fins.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].fins.T_start[5]
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[1].fins.useDynamicEquations
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[1].fins.T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].fins.der(T[1])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[1].fins.T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].fins.der(T[2])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[1].fins.T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].fins.der(T[3])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[1].fins.T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].fins.der(T[4])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[1].fins.T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[1].fins.der(T[5])
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.V
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[1].fins.M
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].fins.Cp
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[1].heatPortToGas.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatPortToGas.Q_flow[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatPortToGas.Q_flow[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatPortToGas.Q_flow[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatPortToGas.Q_flow[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[1].heatPortToGas.Q_flow[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[2].pi
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[2].numberOfTubeNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].numberOfWallLayers
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].hydraulicResistance_gas
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].timeDelayOfInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].pOut_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].hOut_start
 -1  100000                       0                  1.000000000000000E+008
  1   280   # EVA1.flueGasZone[2].pGas_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].TGasOut_start
  0       0                 -100000                  100000                
  6   256   # EVA1.flueGasZone[2].m_flowGas_start
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].initializeWithZeroInnerHeatFlow
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[2].geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[2].geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[2].geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[2].geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].metal.rho
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].cleanliness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].computeHeatLossInPercent
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatloss
 -1  4.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[2].kLossToAmbient
 -1     300                       1                   10000                
  1   280   # EVA1.flueGasZone[2].T_ambient
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].Q_flowToAmbient[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].Q_flowToAmbient[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].Q_flowToAmbient[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].Q_flowToAmbient[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].Q_flowToAmbient[5]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.hOut
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.preferredStates
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.pOut_start
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.hOut_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.TIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.TOut_start
 -1       1                       0                       1                
  1   280   # EVA1.flueGasZone[2].tube.XIn_start[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].tube.XOut_start[1]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.useSubstanceStorage
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.useEnergyStorage
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.dp
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[2].tube.state_from_a.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[2].tube.state_from_a.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.state_from_a.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.state_from_a.T
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[2].tube.state_from_b.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[2].tube.state_from_b.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.state_from_b.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.g
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].tube.numberOfNodes
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[2].tube.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.geoPipe.A
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.h_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.additionalVolume
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.considerDynamicPressure
  0  1.688893821191580E+002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.heatedArea
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.diameterInner
  0  4.200000000000000E+000       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.dz
  0  1.776586384984220E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.V
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.A
  0  1.385737380287690E+000       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.VTotal
  0  3.553172769968450E-003       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.VCell
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[2].tube.fluid[1].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[2].tube.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].tube.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].tube.fluid[1].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[2].tube.fluid[1].phase
 -1       0                       0                  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[2].tube.fluid[2].p
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[2].tube.fluid[2].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[2].tube.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].tube.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].tube.fluid[2].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[2].tube.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[2].tube.fluid[3].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[2].tube.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].tube.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].tube.fluid[3].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[2].tube.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[2].tube.fluid[4].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[2].tube.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].tube.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].tube.fluid[4].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[2].tube.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[2].tube.fluid[5].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[2].tube.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].tube.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].tube.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].tube.fluid[5].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[2].tube.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # EVA1.flueGasZone[2].tube.m_flows[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # EVA1.flueGasZone[2].tube.d_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.vol_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.dpfric
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.dphyd
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.dpHyd_start
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.dpFric_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T_start[5]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d_start[1]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d_start[2]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d_start[3]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d_start[4]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.q_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.T[5]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d[1]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d[2]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d[3]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d[4]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[2].tube.d[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.der(d[1])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.der(d[2])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.der(d[3])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.der(d[4])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[2].tube.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[2].tube.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[2].tube.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[2].tube.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[2].tube.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[2].tube.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[2].tube.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[2].tube.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[2].tube.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[2].tube.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[2].tube.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[2].tube.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[2].tube.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[2].tube.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[2].tube.eta[5]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[2].tube.lambda[1]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[2].tube.lambda[2]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[2].tube.lambda[3]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[2].tube.lambda[4]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[2].tube.lambda[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.E_flows[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.E_flows[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.E_flows[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.E_flows[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.E_flows[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.qHeating[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.qHeating[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.qHeating[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.qHeating[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.qHeating[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[2].tube.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.hydP
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[2].tube.friction.geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.friction.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.geoPipe.A
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # EVA1.flueGasZone[2].tube.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # EVA1.flueGasZone[2].tube.friction.m_flowLaminar
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.diameterInner
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.A
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.friction.zeta
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.TWall[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.TWall[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.TWall[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.TWall[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].tube.TWall[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.timeDelayOfInnerHeatTransfer
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.initializeWithZeroInnerHeatFlow
 -1   10000                       0                       0                
  1   280   # EVA1.flueGasZone[2].tube.alpha_start
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].tube.numberOfWallLayers
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].tube.TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.metal.rho
 -1  3.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[2].tube.stressCoeffofWall.eta
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[2].tube.stressCoeffofWall.alpha_t
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[2].tube.stressCoeffofWall.alpha_m
 -1  1.400000000000000E-005       0                       0                
  1   280   # EVA1.flueGasZone[2].tube.stressCoeffofWall.beta
 -1  1.800000000000000E+011       0                       0                
  1   280   # EVA1.flueGasZone[2].tube.stressCoeffofWall.E
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.heatPort[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.heatPort[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.heatPort[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.heatPort[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.heatPort[5].Q_flow
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].tube.wall.numberOfNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].tube.wall.numberOfWallLayers
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].tube.wall.numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.T_start[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].tube.wall.layer[1].numberOfNodes
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.layer[1].assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].tube.wall.layer[1].numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.layer[1].useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.layer[1].considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].tube.wall.layer[1].considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].T_start[5]
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.wall.layer[1].port_int[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.wall.layer[1].port_int[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.wall.layer[1].port_int[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.wall.layer[1].port_int[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[2].tube.wall.layer[1].port_int[5].Q_flow
  0  2.940983113102160E-004       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].Am
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[2].tube.wall.layer[1].T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.wall.layer[1].der(T[1])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[2].tube.wall.layer[1].T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.wall.layer[1].der(T[2])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[2].tube.wall.layer[1].T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.wall.layer[1].der(T[3])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[2].tube.wall.layer[1].T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.wall.layer[1].der(T[4])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[2].tube.wall.layer[1].T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].tube.wall.layer[1].der(T[5])
  0  1.641000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].rint
  0  1.905000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].rext
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].Tube_mass
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].HeatCap
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.stress.eta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.stress.alpha_t
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.stress.alpha_m
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.stress.beta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.stress.E
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.dT
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.ft
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.fm
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.wall.tension
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[2].tube.heatport.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.alpha[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.alpha[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.alpha[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.alpha[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].tube.alpha[5]
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[1].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[1].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[2].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[2].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[3].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[3].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[4].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[4].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[2].tube.HT[5].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[2].tube.HT[5].A
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].heatTransfer.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.lengthRe
  0  5.984734005088560E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.lengthNu
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.ACrossFlow
  0  1.960598860067010E+002       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.AHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[2].heatTransfer.geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].heatTransfer.geoFGZ.staggered
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].heatTransfer.geoFins.finned
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].heatTransfer.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[2].heatTransfer.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].heatTransfer.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.geoPipe.A
 -1     200                       0                       0                
  1   280   # EVA1.flueGasZone[2].heatTransfer.alpha_start
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].heatTransfer.state.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Re
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Pr
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Nu[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Nu[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Nu[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Nu[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Nu[5]
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].heatTransfer.cp
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].heatTransfer.eta
  0       1                       0                     500                
  6   256   # EVA1.flueGasZone[2].heatTransfer.lambda
  0       1                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatTransfer.Psi
 -1       1                       0                       0                
  1   280   # EVA1.flueGasZone[2].heatTransfer.heatingSurfaceFactor_set
 -1  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[2].mediumGasOut.h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].mediumGasOut.der(h)
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].mediumGasOut.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].mediumGasOut.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].mediumGasOut.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].mediumGasOut.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].mediumGasOut.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].mediumGasOut.p_bar
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].mediumGas.h
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[2].mediumGas.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].mediumGas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].mediumGas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].mediumGas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].mediumGas.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].mediumGas.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGas.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].mediumGas.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].mediumGas.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].mediumGas.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].mediumGas.p_bar
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].mediumGasIn.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[2].mediumGasIn.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[2].mediumGasIn.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[2].mediumGasIn.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].mediumGasIn.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].mediumGasIn.p_bar
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].state_gas.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].state_gas.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].state_gas.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].state_gas.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].state_gas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[2].state_gas.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].V_gas
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].deltaT[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].deltaT[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].deltaT[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].deltaT[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].deltaT[5]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[2].T_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].lengthCharacteristicRe
  0  1.960598860067010E+002       0                       0                
  6  1280   # EVA1.flueGasZone[2].Ah
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].temperatureRate[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].temperatureRate[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].temperatureRate[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].temperatureRate[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[2].temperatureRate[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[2].fins.numberOfNodes
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].fins.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].fins.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[2].fins.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].fins.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].fins.metal.rho
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].fins.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].fins.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].fins.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].fins.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].fins.T_start[5]
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[2].fins.useDynamicEquations
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[2].fins.T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].fins.der(T[1])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[2].fins.T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].fins.der(T[2])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[2].fins.T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].fins.der(T[3])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[2].fins.T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].fins.der(T[4])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[2].fins.T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[2].fins.der(T[5])
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.V
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[2].fins.M
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].fins.Cp
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[2].heatPortToGas.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatPortToGas.Q_flow[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatPortToGas.Q_flow[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatPortToGas.Q_flow[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatPortToGas.Q_flow[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[2].heatPortToGas.Q_flow[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[3].pi
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[3].numberOfTubeNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].numberOfWallLayers
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].hydraulicResistance_gas
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].timeDelayOfInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].pOut_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].hOut_start
 -1  100000                       0                  1.000000000000000E+008
  1   280   # EVA1.flueGasZone[3].pGas_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].TGasOut_start
  0       0                 -100000                  100000                
  6   256   # EVA1.flueGasZone[3].m_flowGas_start
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].initializeWithZeroInnerHeatFlow
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[3].geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[3].geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[3].geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[3].geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].metal.rho
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].cleanliness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].computeHeatLossInPercent
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatloss
 -1  4.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[3].kLossToAmbient
 -1     300                       1                   10000                
  1   280   # EVA1.flueGasZone[3].T_ambient
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].Q_flowToAmbient[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].Q_flowToAmbient[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].Q_flowToAmbient[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].Q_flowToAmbient[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].Q_flowToAmbient[5]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.hOut
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.preferredStates
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.pOut_start
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.hOut_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.TIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.TOut_start
 -1       1                       0                       1                
  1   280   # EVA1.flueGasZone[3].tube.XIn_start[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].tube.XOut_start[1]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.useSubstanceStorage
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.useEnergyStorage
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.dp
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[3].tube.state_from_a.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[3].tube.state_from_a.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.state_from_a.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.state_from_a.T
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[3].tube.state_from_b.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[3].tube.state_from_b.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.state_from_b.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.g
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].tube.numberOfNodes
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[3].tube.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.geoPipe.A
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.h_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.additionalVolume
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.considerDynamicPressure
  0  1.688893821191580E+002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.heatedArea
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.diameterInner
  0  4.200000000000000E+000       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.dz
  0  1.776586384984220E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.V
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.A
  0  1.385737380287690E+000       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.VTotal
  0  3.553172769968450E-003       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.VCell
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[3].tube.fluid[1].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[3].tube.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].tube.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].tube.fluid[1].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[3].tube.fluid[1].phase
 -1       0                       0                  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[3].tube.fluid[2].p
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[3].tube.fluid[2].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[3].tube.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].tube.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].tube.fluid[2].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[3].tube.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[3].tube.fluid[3].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[3].tube.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].tube.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].tube.fluid[3].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[3].tube.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[3].tube.fluid[4].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[3].tube.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].tube.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].tube.fluid[4].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[3].tube.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[3].tube.fluid[5].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[3].tube.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].tube.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].tube.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].tube.fluid[5].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[3].tube.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # EVA1.flueGasZone[3].tube.m_flows[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # EVA1.flueGasZone[3].tube.d_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.vol_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.dpfric
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.dphyd
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.dpHyd_start
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.dpFric_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T_start[5]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d_start[1]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d_start[2]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d_start[3]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d_start[4]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.q_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.T[5]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d[1]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d[2]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d[3]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d[4]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[3].tube.d[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.der(d[1])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.der(d[2])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.der(d[3])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.der(d[4])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[3].tube.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[3].tube.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[3].tube.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[3].tube.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[3].tube.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[3].tube.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[3].tube.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[3].tube.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[3].tube.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[3].tube.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[3].tube.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[3].tube.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[3].tube.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[3].tube.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[3].tube.eta[5]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[3].tube.lambda[1]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[3].tube.lambda[2]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[3].tube.lambda[3]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[3].tube.lambda[4]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[3].tube.lambda[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.E_flows[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.E_flows[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.E_flows[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.E_flows[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.E_flows[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.qHeating[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.qHeating[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.qHeating[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.qHeating[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.qHeating[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[3].tube.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.hydP
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[3].tube.friction.geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.friction.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.geoPipe.A
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # EVA1.flueGasZone[3].tube.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # EVA1.flueGasZone[3].tube.friction.m_flowLaminar
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.diameterInner
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.A
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.friction.zeta
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.TWall[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.TWall[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.TWall[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.TWall[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].tube.TWall[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.timeDelayOfInnerHeatTransfer
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.initializeWithZeroInnerHeatFlow
 -1   10000                       0                       0                
  1   280   # EVA1.flueGasZone[3].tube.alpha_start
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].tube.numberOfWallLayers
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].tube.TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.metal.rho
 -1  3.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[3].tube.stressCoeffofWall.eta
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[3].tube.stressCoeffofWall.alpha_t
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[3].tube.stressCoeffofWall.alpha_m
 -1  1.400000000000000E-005       0                       0                
  1   280   # EVA1.flueGasZone[3].tube.stressCoeffofWall.beta
 -1  1.800000000000000E+011       0                       0                
  1   280   # EVA1.flueGasZone[3].tube.stressCoeffofWall.E
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.heatPort[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.heatPort[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.heatPort[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.heatPort[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.heatPort[5].Q_flow
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].tube.wall.numberOfNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].tube.wall.numberOfWallLayers
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].tube.wall.numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.T_start[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].tube.wall.layer[1].numberOfNodes
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.layer[1].assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].tube.wall.layer[1].numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.layer[1].useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.layer[1].considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].tube.wall.layer[1].considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].T_start[5]
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.wall.layer[1].port_int[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.wall.layer[1].port_int[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.wall.layer[1].port_int[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.wall.layer[1].port_int[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[3].tube.wall.layer[1].port_int[5].Q_flow
  0  2.940983113102160E-004       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].Am
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[3].tube.wall.layer[1].T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.wall.layer[1].der(T[1])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[3].tube.wall.layer[1].T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.wall.layer[1].der(T[2])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[3].tube.wall.layer[1].T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.wall.layer[1].der(T[3])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[3].tube.wall.layer[1].T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.wall.layer[1].der(T[4])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[3].tube.wall.layer[1].T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].tube.wall.layer[1].der(T[5])
  0  1.641000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].rint
  0  1.905000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].rext
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].Tube_mass
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].HeatCap
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.layer[1].Q_flow_ax[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.stress.eta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.stress.alpha_t
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.stress.alpha_m
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.stress.beta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.stress.E
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.dT
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.ft
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.fm
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.wall.tension
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[3].tube.heatport.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.alpha[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.alpha[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.alpha[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.alpha[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].tube.alpha[5]
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[1].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[1].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[2].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[2].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[3].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[3].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[4].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[4].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[3].tube.HT[5].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[3].tube.HT[5].A
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].heatTransfer.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.lengthRe
  0  5.984734005088560E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.lengthNu
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.ACrossFlow
  0  1.960598860067010E+002       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.AHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[3].heatTransfer.geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].heatTransfer.geoFGZ.staggered
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].heatTransfer.geoFins.finned
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].heatTransfer.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[3].heatTransfer.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].heatTransfer.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.geoPipe.A
 -1     200                       0                       0                
  1   280   # EVA1.flueGasZone[3].heatTransfer.alpha_start
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].heatTransfer.state.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Re
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Pr
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Nu[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Nu[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Nu[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Nu[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Nu[5]
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].heatTransfer.cp
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].heatTransfer.eta
  0       1                       0                     500                
  6   256   # EVA1.flueGasZone[3].heatTransfer.lambda
  0       1                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatTransfer.Psi
 -1       1                       0                       0                
  1   280   # EVA1.flueGasZone[3].heatTransfer.heatingSurfaceFactor_set
 -1  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[3].mediumGasOut.h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].mediumGasOut.der(h)
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].mediumGasOut.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].mediumGasOut.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].mediumGasOut.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].mediumGasOut.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].mediumGasOut.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].mediumGasOut.p_bar
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].mediumGas.h
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[3].mediumGas.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].mediumGas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].mediumGas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].mediumGas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].mediumGas.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].mediumGas.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGas.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].mediumGas.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].mediumGas.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].mediumGas.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].mediumGas.p_bar
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].mediumGasIn.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[3].mediumGasIn.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[3].mediumGasIn.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[3].mediumGasIn.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].mediumGasIn.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].mediumGasIn.p_bar
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].state_gas.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].state_gas.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].state_gas.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].state_gas.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].state_gas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[3].state_gas.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].V_gas
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].deltaT[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].deltaT[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].deltaT[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].deltaT[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].deltaT[5]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[3].T_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].lengthCharacteristicRe
  0  1.960598860067010E+002       0                       0                
  6  1280   # EVA1.flueGasZone[3].Ah
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].temperatureRate[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].temperatureRate[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].temperatureRate[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].temperatureRate[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[3].temperatureRate[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[3].fins.numberOfNodes
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].fins.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].fins.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[3].fins.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].fins.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].fins.metal.rho
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].fins.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].fins.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].fins.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].fins.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].fins.T_start[5]
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[3].fins.useDynamicEquations
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[3].fins.T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].fins.der(T[1])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[3].fins.T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].fins.der(T[2])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[3].fins.T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].fins.der(T[3])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[3].fins.T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].fins.der(T[4])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[3].fins.T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[3].fins.der(T[5])
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.V
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[3].fins.M
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].fins.Cp
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[3].heatPortToGas.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatPortToGas.Q_flow[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatPortToGas.Q_flow[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatPortToGas.Q_flow[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatPortToGas.Q_flow[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[3].heatPortToGas.Q_flow[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[4].pi
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[4].numberOfTubeNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].numberOfWallLayers
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].hydraulicResistance_gas
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].timeDelayOfInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].pOut_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].hOut_start
 -1  100000                       0                  1.000000000000000E+008
  1   280   # EVA1.flueGasZone[4].pGas_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].TGasOut_start
  0       0                 -100000                  100000                
  6   256   # EVA1.flueGasZone[4].m_flowGas_start
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].initializeWithZeroInnerHeatFlow
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[4].geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[4].geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[4].geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[4].geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].metal.rho
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].cleanliness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].computeHeatLossInPercent
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatloss
 -1  4.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[4].kLossToAmbient
 -1     300                       1                   10000                
  1   280   # EVA1.flueGasZone[4].T_ambient
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].Q_flowToAmbient[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].Q_flowToAmbient[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].Q_flowToAmbient[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].Q_flowToAmbient[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].Q_flowToAmbient[5]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.hOut
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.preferredStates
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.pOut_start
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.hOut_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.TIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.TOut_start
 -1       1                       0                       1                
  1   280   # EVA1.flueGasZone[4].tube.XIn_start[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].tube.XOut_start[1]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.useSubstanceStorage
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.useEnergyStorage
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.dp
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[4].tube.state_from_a.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[4].tube.state_from_a.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.state_from_a.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.state_from_a.T
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[4].tube.state_from_b.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[4].tube.state_from_b.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.state_from_b.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.g
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].tube.numberOfNodes
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[4].tube.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.geoPipe.A
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.h_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.additionalVolume
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.considerDynamicPressure
  0  1.688893821191580E+002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.heatedArea
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.diameterInner
  0  4.200000000000000E+000       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.dz
  0  1.776586384984220E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.V
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.A
  0  1.385737380287690E+000       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.VTotal
  0  3.553172769968450E-003       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.VCell
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[4].tube.fluid[1].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[4].tube.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].tube.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].tube.fluid[1].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[4].tube.fluid[1].phase
 -1       0                       0                  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[4].tube.fluid[2].p
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[4].tube.fluid[2].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[4].tube.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].tube.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].tube.fluid[2].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[4].tube.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[4].tube.fluid[3].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[4].tube.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].tube.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].tube.fluid[3].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[4].tube.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[4].tube.fluid[4].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[4].tube.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].tube.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].tube.fluid[4].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[4].tube.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[4].tube.fluid[5].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[4].tube.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].tube.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].tube.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].tube.fluid[5].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[4].tube.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # EVA1.flueGasZone[4].tube.m_flows[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # EVA1.flueGasZone[4].tube.d_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.vol_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.dpfric
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.dphyd
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.dpHyd_start
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.dpFric_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T_start[5]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d_start[1]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d_start[2]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d_start[3]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d_start[4]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.q_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.T[5]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d[1]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d[2]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d[3]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d[4]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[4].tube.d[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.der(d[1])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.der(d[2])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.der(d[3])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.der(d[4])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[4].tube.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[4].tube.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[4].tube.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[4].tube.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[4].tube.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[4].tube.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[4].tube.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[4].tube.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[4].tube.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[4].tube.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[4].tube.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[4].tube.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[4].tube.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[4].tube.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[4].tube.eta[5]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[4].tube.lambda[1]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[4].tube.lambda[2]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[4].tube.lambda[3]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[4].tube.lambda[4]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[4].tube.lambda[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.E_flows[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.E_flows[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.E_flows[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.E_flows[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.E_flows[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.qHeating[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.qHeating[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.qHeating[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.qHeating[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.qHeating[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[4].tube.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.hydP
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[4].tube.friction.geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.friction.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.geoPipe.A
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # EVA1.flueGasZone[4].tube.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # EVA1.flueGasZone[4].tube.friction.m_flowLaminar
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.diameterInner
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.A
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.friction.zeta
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.TWall[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.TWall[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.TWall[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.TWall[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].tube.TWall[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.timeDelayOfInnerHeatTransfer
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.initializeWithZeroInnerHeatFlow
 -1   10000                       0                       0                
  1   280   # EVA1.flueGasZone[4].tube.alpha_start
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].tube.numberOfWallLayers
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].tube.TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.metal.rho
 -1  3.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[4].tube.stressCoeffofWall.eta
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[4].tube.stressCoeffofWall.alpha_t
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[4].tube.stressCoeffofWall.alpha_m
 -1  1.400000000000000E-005       0                       0                
  1   280   # EVA1.flueGasZone[4].tube.stressCoeffofWall.beta
 -1  1.800000000000000E+011       0                       0                
  1   280   # EVA1.flueGasZone[4].tube.stressCoeffofWall.E
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.heatPort[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.heatPort[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.heatPort[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.heatPort[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.heatPort[5].Q_flow
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].tube.wall.numberOfNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].tube.wall.numberOfWallLayers
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].tube.wall.numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.T_start[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].tube.wall.layer[1].numberOfNodes
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.layer[1].assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].tube.wall.layer[1].numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.layer[1].useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.layer[1].considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].tube.wall.layer[1].considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].T_start[5]
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.wall.layer[1].port_int[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.wall.layer[1].port_int[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.wall.layer[1].port_int[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.wall.layer[1].port_int[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[4].tube.wall.layer[1].port_int[5].Q_flow
  0  2.940983113102160E-004       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].Am
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[4].tube.wall.layer[1].T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.wall.layer[1].der(T[1])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[4].tube.wall.layer[1].T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.wall.layer[1].der(T[2])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[4].tube.wall.layer[1].T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.wall.layer[1].der(T[3])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[4].tube.wall.layer[1].T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.wall.layer[1].der(T[4])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[4].tube.wall.layer[1].T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].tube.wall.layer[1].der(T[5])
  0  1.641000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].rint
  0  1.905000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].rext
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].Tube_mass
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].HeatCap
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.layer[1].Q_flow_ax[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.stress.eta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.stress.alpha_t
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.stress.alpha_m
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.stress.beta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.stress.E
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.dT
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.ft
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.fm
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.wall.tension
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[4].tube.heatport.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.alpha[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.alpha[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.alpha[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.alpha[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].tube.alpha[5]
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[1].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[1].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[2].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[2].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[3].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[3].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[4].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[4].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[4].tube.HT[5].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[4].tube.HT[5].A
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].heatTransfer.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.lengthRe
  0  5.984734005088560E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.lengthNu
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.ACrossFlow
  0  1.960598860067010E+002       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.AHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[4].heatTransfer.geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].heatTransfer.geoFGZ.staggered
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].heatTransfer.geoFins.finned
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].heatTransfer.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[4].heatTransfer.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].heatTransfer.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.geoPipe.A
 -1     200                       0                       0                
  1   280   # EVA1.flueGasZone[4].heatTransfer.alpha_start
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].heatTransfer.state.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Re
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Pr
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Nu[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Nu[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Nu[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Nu[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Nu[5]
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].heatTransfer.cp
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].heatTransfer.eta
  0       1                       0                     500                
  6   256   # EVA1.flueGasZone[4].heatTransfer.lambda
  0       1                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatTransfer.Psi
 -1       1                       0                       0                
  1   280   # EVA1.flueGasZone[4].heatTransfer.heatingSurfaceFactor_set
 -1  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[4].mediumGasOut.h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].mediumGasOut.der(h)
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].mediumGasOut.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].mediumGasOut.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].mediumGasOut.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].mediumGasOut.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].mediumGasOut.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].mediumGasOut.p_bar
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].mediumGas.h
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[4].mediumGas.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].mediumGas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].mediumGas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].mediumGas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].mediumGas.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].mediumGas.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGas.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].mediumGas.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].mediumGas.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].mediumGas.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].mediumGas.p_bar
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].mediumGasIn.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[4].mediumGasIn.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[4].mediumGasIn.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[4].mediumGasIn.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].mediumGasIn.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].mediumGasIn.p_bar
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].state_gas.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].state_gas.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].state_gas.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].state_gas.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].state_gas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[4].state_gas.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].V_gas
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].deltaT[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].deltaT[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].deltaT[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].deltaT[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].deltaT[5]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[4].T_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].lengthCharacteristicRe
  0  1.960598860067010E+002       0                       0                
  6  1280   # EVA1.flueGasZone[4].Ah
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].temperatureRate[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].temperatureRate[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].temperatureRate[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].temperatureRate[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[4].temperatureRate[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[4].fins.numberOfNodes
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].fins.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].fins.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[4].fins.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].fins.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].fins.metal.rho
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].fins.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].fins.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].fins.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].fins.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].fins.T_start[5]
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[4].fins.useDynamicEquations
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[4].fins.T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].fins.der(T[1])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[4].fins.T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].fins.der(T[2])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[4].fins.T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].fins.der(T[3])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[4].fins.T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].fins.der(T[4])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[4].fins.T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[4].fins.der(T[5])
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.V
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[4].fins.M
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].fins.Cp
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[4].heatPortToGas.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatPortToGas.Q_flow[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatPortToGas.Q_flow[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatPortToGas.Q_flow[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatPortToGas.Q_flow[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[4].heatPortToGas.Q_flow[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[5].pi
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[5].numberOfTubeNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].numberOfWallLayers
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].hydraulicResistance_gas
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].timeDelayOfInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].pOut_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].hOut_start
 -1  100000                       0                  1.000000000000000E+008
  1   280   # EVA1.flueGasZone[5].pGas_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].TGasOut_start
  0       0                 -100000                  100000                
  6   256   # EVA1.flueGasZone[5].m_flowGas_start
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].initializeWithZeroInnerHeatFlow
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[5].geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[5].geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[5].geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[5].geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].metal.rho
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].cleanliness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].computeHeatLossInPercent
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatloss
 -1  4.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[5].kLossToAmbient
 -1     300                       1                   10000                
  1   280   # EVA1.flueGasZone[5].T_ambient
  0       0                       0                       1                
  6   260   # EVA1.flueGasZone[5].portGasIn.Xi_outflow[1]
  0       0                       0                       1                
  6   260   # EVA1.flueGasZone[5].portGasIn.Xi_outflow[2]
  0       0                       0                       1                
  6   260   # EVA1.flueGasZone[5].portGasIn.Xi_outflow[3]
  0       0                       0                       1                
  6   260   # EVA1.flueGasZone[5].portGasIn.Xi_outflow[4]
  0       0                       0                       1                
  6   260   # EVA1.flueGasZone[5].portGasIn.Xi_outflow[5]
  0       0                       0                       1                
  6   260   # EVA1.flueGasZone[5].portGasIn.Xi_outflow[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].Q_flowToAmbient[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].Q_flowToAmbient[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].Q_flowToAmbient[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].Q_flowToAmbient[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].Q_flowToAmbient[5]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.hOut
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.preferredStates
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.pOut_start
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.hOut_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.TIn_start
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.TOut_start
 -1       1                       0                       1                
  1   280   # EVA1.flueGasZone[5].tube.XIn_start[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].tube.XOut_start[1]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.useSubstanceStorage
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.useEnergyStorage
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.dp
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[5].tube.state_from_a.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[5].tube.state_from_a.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.state_from_a.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.state_from_a.T
  0       0                       0                       2                
  6  1282   # EVA1.flueGasZone[5].tube.state_from_b.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[5].tube.state_from_b.h
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.state_from_b.d
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.g
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].tube.numberOfNodes
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[5].tube.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.geoPipe.A
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.h_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.additionalVolume
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.considerDynamicPressure
  0  1.688893821191580E+002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.heatedArea
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.diameterInner
  0  4.200000000000000E+000       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.dz
  0  1.776586384984220E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.V
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.A
  0  1.385737380287690E+000       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.VTotal
  0  3.553172769968450E-003       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.VCell
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[5].tube.fluid[1].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[5].tube.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].tube.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].tube.fluid[1].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[5].tube.fluid[1].phase
 -1       0                       0                  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[5].tube.fluid[2].p
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[5].tube.fluid[2].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[5].tube.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].tube.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].tube.fluid[2].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[5].tube.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[5].tube.fluid[3].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[5].tube.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].tube.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].tube.fluid[3].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[5].tube.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[5].tube.fluid[4].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[5].tube.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].tube.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].tube.fluid[4].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[5].tube.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[5].tube.fluid[5].h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # EVA1.flueGasZone[5].tube.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].tube.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].tube.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].tube.fluid[5].MM
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA1.flueGasZone[5].tube.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # EVA1.flueGasZone[5].tube.m_flows[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # EVA1.flueGasZone[5].tube.d_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.vol_av
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.dpfric
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.dphyd
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.dpHyd_start
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.dpFric_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T_start[5]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d_start[1]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d_start[2]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d_start[3]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d_start[4]
  0     150                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.q_start
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.T[5]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d[1]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d[2]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d[3]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d[4]
  0       0                       0                  100000                
  6  1280   # EVA1.flueGasZone[5].tube.d[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.der(d[1])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.der(d[2])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.der(d[3])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.der(d[4])
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[5].tube.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[5].tube.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[5].tube.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[5].tube.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA1.flueGasZone[5].tube.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[5].tube.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[5].tube.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[5].tube.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[5].tube.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA1.flueGasZone[5].tube.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[5].tube.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[5].tube.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[5].tube.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[5].tube.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA1.flueGasZone[5].tube.eta[5]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[5].tube.lambda[1]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[5].tube.lambda[2]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[5].tube.lambda[3]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[5].tube.lambda[4]
  0       1                       0                     500                
  6  1280   # EVA1.flueGasZone[5].tube.lambda[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.E_flows[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.E_flows[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.E_flows[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.E_flows[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.E_flows[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.qHeating[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.qHeating[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.qHeating[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.qHeating[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.qHeating[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[5].tube.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.hydP
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[5].tube.friction.geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.friction.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.geoPipe.A
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # EVA1.flueGasZone[5].tube.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # EVA1.flueGasZone[5].tube.friction.m_flowLaminar
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.diameterInner
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.A
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.friction.zeta
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.TWall[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.TWall[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.TWall[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.TWall[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].tube.TWall[5]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.timeDelayOfInnerHeatTransfer
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.useHeatInput
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.initializeWithZeroInnerHeatFlow
 -1   10000                       0                       0                
  1   280   # EVA1.flueGasZone[5].tube.alpha_start
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].tube.numberOfWallLayers
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].tube.TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.metal.rho
 -1  3.000000000000000E-001       0                       0                
  1   280   # EVA1.flueGasZone[5].tube.stressCoeffofWall.eta
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[5].tube.stressCoeffofWall.alpha_t
 -1       2                       0                       0                
  1   280   # EVA1.flueGasZone[5].tube.stressCoeffofWall.alpha_m
 -1  1.400000000000000E-005       0                       0                
  1   280   # EVA1.flueGasZone[5].tube.stressCoeffofWall.beta
 -1  1.800000000000000E+011       0                       0                
  1   280   # EVA1.flueGasZone[5].tube.stressCoeffofWall.E
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.heatPort[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.heatPort[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.heatPort[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.heatPort[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.heatPort[5].Q_flow
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].tube.wall.numberOfNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].tube.wall.numberOfWallLayers
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].tube.wall.numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.T_start[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].tube.wall.layer[1].numberOfNodes
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.layer[1].assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].metal.rho
  0      78                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].tube.wall.layer[1].numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].length
  0  3.282000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].diameterInner
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].wallThickness
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.layer[1].useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.layer[1].considerConductivity
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].tube.wall.layer[1].considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].T_start[5]
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.wall.layer[1].port_int[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.wall.layer[1].port_int[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.wall.layer[1].port_int[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.wall.layer[1].port_int[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA1.flueGasZone[5].tube.wall.layer[1].port_int[5].Q_flow
  0  2.940983113102160E-004       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].Am
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[5].tube.wall.layer[1].T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.wall.layer[1].der(T[1])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[5].tube.wall.layer[1].T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.wall.layer[1].der(T[2])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[5].tube.wall.layer[1].T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.wall.layer[1].der(T[3])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[5].tube.wall.layer[1].T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.wall.layer[1].der(T[4])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA1.flueGasZone[5].tube.wall.layer[1].T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].tube.wall.layer[1].der(T[5])
  0  1.641000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].rint
  0  1.905000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].rext
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].Tube_mass
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].HeatCap
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.layer[1].Q_flow_ax[5]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.stress.eta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.stress.alpha_t
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.stress.alpha_m
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.stress.beta
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.stress.E
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.dT
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.ft
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.fm
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.wall.tension
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[5].tube.heatport.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.alpha[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.alpha[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.alpha[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.alpha[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].tube.alpha[5]
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[1].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[1].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[2].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[2].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[3].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[3].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[4].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[4].A
  0      78                       0                       0                
  6  1282   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].geoPipe.A
  0  3.282000000000000E-002       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].steamQuality
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].xdo
  0       1                       0                       0                
  6  1281   # EVA1.flueGasZone[5].tube.HT[5].isSinglePhase
  0  8.459935166591540E-004       0                       0                
  6  1280   # EVA1.flueGasZone[5].tube.HT[5].A
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].heatTransfer.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.lengthRe
  0  5.984734005088560E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.lengthNu
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.ACrossFlow
  0  1.960598860067010E+002       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.AHeatTransfer
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA1.flueGasZone[5].heatTransfer.geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].heatTransfer.geoFGZ.staggered
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].heatTransfer.geoFins.finned
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].heatTransfer.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[5].heatTransfer.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].heatTransfer.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.geoPipe.A
 -1     200                       0                       0                
  1   280   # EVA1.flueGasZone[5].heatTransfer.alpha_start
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].heatTransfer.state.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Re
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Pr
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Nu[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Nu[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Nu[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Nu[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Nu[5]
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].heatTransfer.cp
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].heatTransfer.eta
  0       1                       0                     500                
  6   256   # EVA1.flueGasZone[5].heatTransfer.lambda
  0       1                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatTransfer.Psi
 -1       1                       0                       0                
  1   280   # EVA1.flueGasZone[5].heatTransfer.heatingSurfaceFactor_set
 -1  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA1.flueGasZone[5].mediumGasOut.h
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].mediumGasOut.der(h)
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].mediumGasOut.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].mediumGasOut.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].mediumGasOut.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].mediumGasOut.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].mediumGasOut.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].mediumGasOut.p_bar
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].mediumGas.h
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[5].mediumGas.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].mediumGas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].mediumGas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].mediumGas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].mediumGas.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].mediumGas.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGas.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].mediumGas.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].mediumGas.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].mediumGas.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].mediumGas.p_bar
  0      10                       0                  100000                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].mediumGasIn.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA1.flueGasZone[5].mediumGasIn.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.flueGasZone[5].mediumGasIn.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.p
  0     500                       1                   10000                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.T
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.state.X[6]
  0       0                       0                       0                
  6   257   # EVA1.flueGasZone[5].mediumGasIn.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].mediumGasIn.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.T_degC
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].mediumGasIn.p_bar
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].state_gas.X[1]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].state_gas.X[2]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].state_gas.X[3]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].state_gas.X[4]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].state_gas.X[5]
  0       0                       0                       1                
  6   256   # EVA1.flueGasZone[5].state_gas.X[6]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].V_gas
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].deltaT[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].deltaT[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].deltaT[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].deltaT[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].deltaT[5]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA1.flueGasZone[5].T_start[5]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].lengthCharacteristicRe
  0  1.960598860067010E+002       0                       0                
  6  1280   # EVA1.flueGasZone[5].Ah
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].temperatureRate[1]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].temperatureRate[2]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].temperatureRate[3]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].temperatureRate[4]
  0       0                       0                       0                
  6  1280   # EVA1.flueGasZone[5].temperatureRate[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.flueGasZone[5].fins.numberOfNodes
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].fins.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].fins.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoFins.h
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoFins.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoFins.b
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoFins.w
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoFins.n
  0      78                       0                       0                
  6   258   # EVA1.flueGasZone[5].fins.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoPipe.d_out
  0  2.640000000000000E-003       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].fins.geoPipe.isCylindric
  0  8.459935166591540E-004       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.geoPipe.A
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.metal.cp
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].fins.metal.rho
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].fins.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].fins.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].fins.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].fins.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].fins.T_start[5]
  0       1                       0                       0                
  6   257   # EVA1.flueGasZone[5].fins.useDynamicEquations
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[5].fins.T[1]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].fins.der(T[1])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[5].fins.T[2]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].fins.der(T[2])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[5].fins.T[3]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].fins.der(T[3])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[5].fins.T[4]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].fins.der(T[4])
 -1     500                       1                   10000                
  2   272   # EVA1.flueGasZone[5].fins.T[5]
  0       0                       0                       0                
  3   256   # EVA1.flueGasZone[5].fins.der(T[5])
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.V
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA1.flueGasZone[5].fins.M
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].fins.Cp
  0       5                       0                       0                
  6   258   # EVA1.flueGasZone[5].heatPortToGas.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatPortToGas.Q_flow[1]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatPortToGas.Q_flow[2]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatPortToGas.Q_flow[3]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatPortToGas.Q_flow[4]
  0       0                       0                       0                
  6   256   # EVA1.flueGasZone[5].heatPortToGas.Q_flow[5]
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.splitter.numberOfPortsSplit
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.splitter.p_start
 -1       0                       0                       0                
  1   281   # EVA1.splitter.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.splitter.h_start
  0     500                       1                   10000                
  6   256   # EVA1.splitter.T_start
 -1       1                       0                       1                
  1   280   # EVA1.splitter.X_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flow_start
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowOpposite_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowOpposite_start[2]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowOpposite_start[3]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowOpposite_start[4]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowOpposite_start[5]
 -1       1                       0                       0                
  1   281   # EVA1.splitter.initializeSteadyMassBalance
 -1       1                       0                       0                
  1   281   # EVA1.splitter.initializeSteadyEnthalpyBalance
 -1       0                       0                       0                
  1   281   # EVA1.splitter.initializeFixedPressure
 -1       0                       0                       0                
  1   281   # EVA1.splitter.initializeFixedEnthalpy
  0       0                       0                       0                
  6   257   # EVA1.splitter.hasVolume
  0  6.000000000000000E-001       0                       0                
  6   256   # EVA1.splitter.V
  0       1                       0                       0                
  6   257   # EVA1.splitter.hasPressureDrop
  0       0                       0                       0                
  6   256   # EVA1.splitter.resistanceHydraulic
  0       0                 -100000                  100000                
  6   388   # EVA1.splitter.portsSplit[1].m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # EVA1.splitter.portsSplit[1].p
  0       0                 -100000                  100000                
  6   388   # EVA1.splitter.portsSplit[2].m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # EVA1.splitter.portsSplit[2].p
  0       0                 -100000                  100000                
  6   388   # EVA1.splitter.portsSplit[3].m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # EVA1.splitter.portsSplit[3].p
  0       0                 -100000                  100000                
  6   388   # EVA1.splitter.portsSplit[4].m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # EVA1.splitter.portsSplit[4].p
  0       0                 -100000                  100000                
  6   388   # EVA1.splitter.portsSplit[5].m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # EVA1.splitter.portsSplit[5].p
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA1.splitter.medium.p
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.splitter.medium.h
  0     150                       0                  100000                
  6   256   # EVA1.splitter.medium.d
  0     500                       1                   10000                
  6   256   # EVA1.splitter.medium.T
  0       1                       0                       1                
  6   256   # EVA1.splitter.medium.X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.splitter.medium.u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.splitter.medium.R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.splitter.medium.MM
  0       0                       0                       0                
  6   257   # EVA1.splitter.medium.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.splitter.medium.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.splitter.medium.T_degC
  0       0                       0                       0                
  6   256   # EVA1.splitter.medium.p_bar
  0     500                       1                   10000                
  6   256   # EVA1.splitter.medium.sat.Tsat
  0       1                       0                       2                
  6   322   # EVA1.splitter.medium.phase
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowFromPortMix
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowFromPortsSplit[1]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowFromPortsSplit[2]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowFromPortsSplit[3]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowFromPortsSplit[4]
  0       0                 -100000                  100000                
  6   256   # EVA1.splitter.m_flowFromPortsSplit[5]
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA1.mixer.numberOfPortsSplit
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA1.mixer.p_start
 -1       0                       0                       0                
  1   281   # EVA1.mixer.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.mixer.h_start
  0     500                       1                   10000                
  6   256   # EVA1.mixer.T_start
 -1       1                       0                       1                
  1   280   # EVA1.mixer.X_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flow_start
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowOpposite_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowOpposite_start[2]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowOpposite_start[3]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowOpposite_start[4]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowOpposite_start[5]
 -1       1                       0                       0                
  1   281   # EVA1.mixer.initializeSteadyMassBalance
 -1       1                       0                       0                
  1   281   # EVA1.mixer.initializeSteadyEnthalpyBalance
 -1       0                       0                       0                
  1   281   # EVA1.mixer.initializeFixedPressure
 -1       0                       0                       0                
  1   281   # EVA1.mixer.initializeFixedEnthalpy
  0       0                       0                       0                
  6   257   # EVA1.mixer.hasVolume
  0       0                       0                       0                
  6   256   # EVA1.mixer.V
  0       0                       0                       0                
  6   257   # EVA1.mixer.hasPressureDrop
 -1       2                       0                       0                
  1   280   # EVA1.mixer.resistanceHydraulic
  0       0                 -100000                  100000                
  6   388   # EVA1.mixer.portsSplit[1].m_flow
  0       0                 -100000                  100000                
  6   388   # EVA1.mixer.portsSplit[2].m_flow
  0       0                 -100000                  100000                
  6   388   # EVA1.mixer.portsSplit[3].m_flow
  0       0                 -100000                  100000                
  6   388   # EVA1.mixer.portsSplit[4].m_flow
  0       0                 -100000                  100000                
  6   388   # EVA1.mixer.portsSplit[5].m_flow
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.mixer.medium.h
  0     150                       0                  100000                
  6   256   # EVA1.mixer.medium.d
  0     500                       1                   10000                
  6   256   # EVA1.mixer.medium.T
  0       1                       0                       1                
  6   256   # EVA1.mixer.medium.X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA1.mixer.medium.u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA1.mixer.medium.R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA1.mixer.medium.MM
  0       0                       0                       0                
  6   257   # EVA1.mixer.medium.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA1.mixer.medium.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA1.mixer.medium.T_degC
  0       0                       0                       0                
  6   256   # EVA1.mixer.medium.p_bar
  0     500                       1                   10000                
  6   256   # EVA1.mixer.medium.sat.Tsat
  0       1                       0                       2                
  6   322   # EVA1.mixer.medium.phase
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowFromPortMix
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowFromPortsSplit[1]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowFromPortsSplit[2]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowFromPortsSplit[3]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowFromPortsSplit[4]
  0       0                 -100000                  100000                
  6   256   # EVA1.mixer.m_flowFromPortsSplit[5]
  0  1.000000000000000E-002       0                       1                
  6   260   # EVA1.portGasOut.Xi_outflow[1]
  0  6.000000000000000E-002       0                       1                
  6   260   # EVA1.portGasOut.Xi_outflow[2]
  0  5.000000000000000E-002       0                       1                
  6   260   # EVA1.portGasOut.Xi_outflow[3]
  0  7.400000000000000E-001       0                       1                
  6   260   # EVA1.portGasOut.Xi_outflow[4]
  0  1.400000000000000E-001       0                       1                
  6   260   # EVA1.portGasOut.Xi_outflow[5]
  0       0                       0                       1                
  6   260   # EVA1.portGasOut.Xi_outflow[6]
  0       2                       1                  1.000000000000000E+100
  6   258   # EVA2.numberOfTubeLayers
  0       5                       0                       0                
  6   258   # EVA2.numberOfCellsPerLayer
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA2.numberOfWallLayers
 -1       2                       0                       0                
  1   280   # EVA2.hydraulicResistanceGasFLow
 -1  8.500000000000001E-002       0                       0                
  1   280   # EVA2.geoFGZ.pt
 -1  9.000000000000000E-002       0                       0                
  1   280   # EVA2.geoFGZ.pl
 -1  3.600000000000000E+000       0                       0                
  1   280   # EVA2.geoFGZ.Lw
 -1      21                       0                       0                
  1   280   # EVA2.geoFGZ.Ld
 -1  9.000000000000000E-002       0                       0                
  1   280   # EVA2.geoFGZ.Lh
 -1      14                       0                       0                
  1   282   # EVA2.geoFGZ.Nr
 -1       1                       0                       0                
  1   281   # EVA2.geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA2.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA2.geoFins.serrated
 -1  1.600000000000000E-002       0                       0                
  1   280   # EVA2.geoFins.h
 -1  1.000000000000000E-003       0                       0                
  1   280   # EVA2.geoFins.s
 -1  5.000000000000000E-003       0                       0                
  1   280   # EVA2.geoFins.b
 -1  4.400000000000000E-003       0                       0                
  1   280   # EVA2.geoFins.w
 -1     294                       0                       0                
  1   280   # EVA2.geoFins.n
 -1     540                       0                       0                
  1   280   # EVA2.propertiesMetal.cp
 -1      38                       0                       0                
  1   280   # EVA2.propertiesMetal.lambda
 -1    7850                       0                  1.000000000000000E+100
  1   280   # EVA2.propertiesMetal.rho
  0      80                       0                       0                
  6   258   # EVA2.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.geoPipe.L
 -1      21                       0                       0                
  1   280   # EVA2.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.geoPipe.s
 -1  3.000000000000000E-005       0                       0                
  1   280   # EVA2.geoPipe.r
 -1  7.500000000000000E-001       0                       0                
  1   280   # EVA2.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.geoPipe.A
  0       0                       0                       0                
  6   257   # EVA2.delayInnerHeatTransfer
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA2.timeDelayOfInnerHeatTransfer
 -1       1                       0                       0                
  1   280   # EVA2.cleanlinessFactor
 -1  5.000000000000000E-001       0                       0                
  1   280   # EVA2.heatloss
  0       0                       0                       0                
  6   257   # EVA2.hasMixerVolume
 -1       1                       0                       0                
  1   280   # EVA2.V
 -1    3000                       0                       0                
  1   280   # EVA2.hydraulicResistanceSplitterOut
 -1  2.286800000000000E+002       0                       0                
  1   280   # EVA2.m_flowGas_start
 -1     390                       1                   10000                
  1   280   # EVA2.TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA2.TGasOut_start
 -1  2.587000000000000E+001       0                       0                
  1   280   # EVA2.m_flow_start
  0  1.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.pIn_start
 -1  1.370000000000000E+007       0                  1.000000000000000E+008
  1   280   # EVA2.pOut_start
 -1  5.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  1   280   # EVA2.hIn_start
  0  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.hOut_start
  0       1                       0                       0                
  6   257   # EVA2.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA2.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA2.initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA2.useHeatInput
  0       0                       0                       0                
  6   257   # EVA2.initializeWithZeroInnerHeatFlow
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[1].pi
  0       5                       0                       0                
  6   258   # EVA2.flueGasZone[1].numberOfTubeNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].numberOfWallLayers
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].hydraulicResistance_gas
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].timeDelayOfInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].pOut_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].hOut_start
 -1  100000                       0                  1.000000000000000E+008
  1   280   # EVA2.flueGasZone[1].pGas_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].TGasOut_start
  0       0                 -100000                  100000                
  6   256   # EVA2.flueGasZone[1].m_flowGas_start
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].useHeatInput
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].initializeWithZeroInnerHeatFlow
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA2.flueGasZone[1].geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].geoFins.finned
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFins.h
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFins.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFins.b
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFins.w
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoFins.n
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[1].geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[1].geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[1].geoPipe.A
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].metal.rho
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].cleanliness
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].computeHeatLossInPercent
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatloss
 -1  4.000000000000000E-001       0                       0                
  1   280   # EVA2.flueGasZone[1].kLossToAmbient
 -1     300                       1                   10000                
  1   280   # EVA2.flueGasZone[1].T_ambient
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].Q_flowToAmbient[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].Q_flowToAmbient[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].Q_flowToAmbient[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].Q_flowToAmbient[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].Q_flowToAmbient[5]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.hOut
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.preferredStates
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.pOut_start
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.hOut_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.TIn_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.TOut_start
 -1       1                       0                       1                
  1   280   # EVA2.flueGasZone[1].tube.XIn_start[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].tube.XOut_start[1]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.useSubstanceStorage
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.useEnergyStorage
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.dp
  0       0                       0                       2                
  6  1282   # EVA2.flueGasZone[1].tube.state_from_a.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[1].tube.state_from_a.h
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.state_from_a.d
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.state_from_a.T
  0       0                       0                       2                
  6  1282   # EVA2.flueGasZone[1].tube.state_from_b.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[1].tube.state_from_b.h
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.state_from_b.d
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.g
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].tube.numberOfNodes
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[1].tube.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.geoPipe.A
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.h_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.additionalVolume
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.considerDynamicPressure
  0  1.667808707937750E+002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.heatedArea
  0  3.160000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.diameterInner
  0  4.200000000000000E+000       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.dz
  0  1.646961099088530E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.V
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.A
  0  1.317568879270820E+000       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.VTotal
  0  3.293922198177060E-003       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.VCell
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[1].tube.fluid[1].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[1].tube.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].tube.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].tube.fluid[1].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[1].tube.fluid[1].phase
 -1       0                       0                  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[1].tube.fluid[2].p
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[1].tube.fluid[2].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[1].tube.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].tube.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].tube.fluid[2].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[1].tube.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[1].tube.fluid[3].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[1].tube.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].tube.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].tube.fluid[3].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[1].tube.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[1].tube.fluid[4].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[1].tube.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].tube.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].tube.fluid[4].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[1].tube.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[1].tube.fluid[5].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[1].tube.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].tube.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].tube.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].tube.fluid[5].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[1].tube.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # EVA2.flueGasZone[1].tube.m_flows[1]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # EVA2.flueGasZone[1].tube.d_av
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.vol_av
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.dpfric
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.dphyd
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.dpHyd_start
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.dpFric_start
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T_start[5]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d_start[1]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d_start[2]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d_start[3]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d_start[4]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d_start[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.q_start
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.T[5]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d[1]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d[2]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d[3]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d[4]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[1].tube.d[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.der(d[1])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.der(d[2])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.der(d[3])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.der(d[4])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[1].tube.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[1].tube.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[1].tube.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[1].tube.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[1].tube.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[1].tube.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[1].tube.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[1].tube.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[1].tube.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[1].tube.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[1].tube.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[1].tube.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[1].tube.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[1].tube.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[1].tube.eta[5]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[1].tube.lambda[1]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[1].tube.lambda[2]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[1].tube.lambda[3]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[1].tube.lambda[4]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[1].tube.lambda[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.E_flows[1]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.E_flows[2]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.E_flows[3]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.E_flows[4]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.E_flows[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.qHeating[1]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.qHeating[2]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.qHeating[3]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.qHeating[4]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.qHeating[5]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA2.flueGasZone[1].tube.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.hydP
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[1].tube.friction.geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.friction.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.geoPipe.A
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # EVA2.flueGasZone[1].tube.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # EVA2.flueGasZone[1].tube.friction.m_flowLaminar
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.diameterInner
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.A
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.friction.zeta
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.TWall[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.TWall[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.TWall[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.TWall[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].tube.TWall[5]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.timeDelayOfInnerHeatTransfer
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.useHeatInput
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.initializeWithZeroInnerHeatFlow
 -1   10000                       0                       0                
  1   280   # EVA2.flueGasZone[1].tube.alpha_start
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].tube.numberOfWallLayers
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].tube.TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.metal.rho
 -1  3.000000000000000E-001       0                       0                
  1   280   # EVA2.flueGasZone[1].tube.stressCoeffofWall.eta
 -1       2                       0                       0                
  1   280   # EVA2.flueGasZone[1].tube.stressCoeffofWall.alpha_t
 -1       2                       0                       0                
  1   280   # EVA2.flueGasZone[1].tube.stressCoeffofWall.alpha_m
 -1  1.400000000000000E-005       0                       0                
  1   280   # EVA2.flueGasZone[1].tube.stressCoeffofWall.beta
 -1  1.800000000000000E+011       0                       0                
  1   280   # EVA2.flueGasZone[1].tube.stressCoeffofWall.E
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.heatPort[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.heatPort[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.heatPort[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.heatPort[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.heatPort[5].Q_flow
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].tube.wall.numberOfNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].tube.wall.numberOfWallLayers
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.metal.rho
  0      80                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].tube.wall.numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.length
  0  3.160000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.diameterInner
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.wallThickness
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.considerConductivity
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.T_start[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].tube.wall.layer[1].numberOfNodes
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.layer[1].assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].metal.rho
  0      80                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].tube.wall.layer[1].numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].length
  0  3.160000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].diameterInner
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].wallThickness
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.layer[1].useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.layer[1].considerConductivity
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].tube.wall.layer[1].considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].T_start[5]
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.wall.layer[1].port_int[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.wall.layer[1].port_int[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.wall.layer[1].port_int[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.wall.layer[1].port_int[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[1].tube.wall.layer[1].port_int[5].Q_flow
  0  3.558246379272140E-004       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].Am
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[1].tube.wall.layer[1].T[1]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.wall.layer[1].der(T[1])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[1].tube.wall.layer[1].T[2]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.wall.layer[1].der(T[2])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[1].tube.wall.layer[1].T[3]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.wall.layer[1].der(T[3])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[1].tube.wall.layer[1].T[4]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.wall.layer[1].der(T[4])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[1].tube.wall.layer[1].T[5]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].tube.wall.layer[1].der(T[5])
  0  1.580000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].rint
  0  1.905000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].rext
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].Tube_mass
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].HeatCap
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.layer[1].Q_flow_ax[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.stress.eta
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.stress.alpha_t
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.stress.alpha_m
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.stress.beta
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.stress.E
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.dT
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.ft
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.fm
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.wall.tension
  0       5                       0                       0                
  6   258   # EVA2.flueGasZone[1].tube.heatport.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.alpha[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.alpha[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.alpha[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.alpha[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].tube.alpha[5]
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[1].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[1].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[2].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[2].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[3].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[3].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[4].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[4].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[1].tube.HT[5].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[1].tube.HT[5].A
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].heatTransfer.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.lengthRe
  0  5.984734005088560E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.lengthNu
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.ACrossFlow
  0  2.010870625709750E+002       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.AHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA2.flueGasZone[1].heatTransfer.geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].heatTransfer.geoFGZ.staggered
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].heatTransfer.geoFins.finned
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].heatTransfer.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFins.h
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFins.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFins.b
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFins.w
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoFins.n
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[1].heatTransfer.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].heatTransfer.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.geoPipe.A
 -1     200                       0                       0                
  1   280   # EVA2.flueGasZone[1].heatTransfer.alpha_start
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].heatTransfer.state.X[6]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Re
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Pr
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Nu[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Nu[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Nu[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Nu[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Nu[5]
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].heatTransfer.cp
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].heatTransfer.eta
  0       1                       0                     500                
  6   256   # EVA2.flueGasZone[1].heatTransfer.lambda
  0       1                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatTransfer.Psi
 -1       1                       0                       0                
  1   280   # EVA2.flueGasZone[1].heatTransfer.heatingSurfaceFactor_set
 -1  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[1].mediumGasOut.h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].mediumGasOut.der(h)
  0      10                       0                  100000                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].mediumGasOut.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].mediumGasOut.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].mediumGasOut.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.state.X[6]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].mediumGasOut.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].mediumGasOut.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGasOut.p_bar
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGas.h
  0      10                       0                  100000                
  6   256   # EVA2.flueGasZone[1].mediumGas.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].mediumGas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].mediumGas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].mediumGas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].mediumGas.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].mediumGas.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGas.state.X[6]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].mediumGas.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].mediumGas.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGas.T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGas.p_bar
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.h
  0      10                       0                  100000                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].mediumGasIn.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[1].mediumGasIn.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[1].mediumGasIn.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.state.X[6]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[1].mediumGasIn.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].mediumGasIn.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].mediumGasIn.p_bar
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].state_gas.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].state_gas.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].state_gas.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].state_gas.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].state_gas.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[1].state_gas.X[6]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].V_gas
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].deltaT[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].deltaT[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].deltaT[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].deltaT[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].deltaT[5]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[1].T_start[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].lengthCharacteristicRe
  0  2.010870625709750E+002       0                       0                
  6  1280   # EVA2.flueGasZone[1].Ah
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].temperatureRate[1]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].temperatureRate[2]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].temperatureRate[3]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].temperatureRate[4]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[1].temperatureRate[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[1].fins.numberOfNodes
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].fins.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].fins.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoFins.h
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoFins.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoFins.b
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoFins.w
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoFins.n
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[1].fins.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].fins.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.geoPipe.A
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].fins.metal.rho
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].fins.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].fins.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].fins.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].fins.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].fins.T_start[5]
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[1].fins.useDynamicEquations
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[1].fins.T[1]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].fins.der(T[1])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[1].fins.T[2]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].fins.der(T[2])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[1].fins.T[3]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].fins.der(T[3])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[1].fins.T[4]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].fins.der(T[4])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[1].fins.T[5]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[1].fins.der(T[5])
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.V
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[1].fins.M
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].fins.Cp
  0       5                       0                       0                
  6   258   # EVA2.flueGasZone[1].heatPortToGas.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatPortToGas.Q_flow[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatPortToGas.Q_flow[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatPortToGas.Q_flow[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatPortToGas.Q_flow[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[1].heatPortToGas.Q_flow[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[2].pi
  0       5                       0                       0                
  6   258   # EVA2.flueGasZone[2].numberOfTubeNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].numberOfWallLayers
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].hydraulicResistance_gas
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].timeDelayOfInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].pOut_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].hOut_start
 -1  100000                       0                  1.000000000000000E+008
  1   280   # EVA2.flueGasZone[2].pGas_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].TGasIn_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].TGasOut_start
  0       0                 -100000                  100000                
  6   256   # EVA2.flueGasZone[2].m_flowGas_start
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].initializeSteadyStateInletEnthalpy
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].useHeatInput
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].initializeWithZeroInnerHeatFlow
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA2.flueGasZone[2].geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].geoFGZ.staggered
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].geoFins.finned
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFins.h
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFins.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFins.b
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFins.w
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoFins.n
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[2].geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[2].geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[2].geoPipe.A
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].metal.rho
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].cleanliness
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].computeHeatLossInPercent
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatloss
 -1  4.000000000000000E-001       0                       0                
  1   280   # EVA2.flueGasZone[2].kLossToAmbient
 -1     300                       1                   10000                
  1   280   # EVA2.flueGasZone[2].T_ambient
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].Q_flowToAmbient[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].Q_flowToAmbient[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].Q_flowToAmbient[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].Q_flowToAmbient[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].Q_flowToAmbient[5]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.hOut
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.preferredStates
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.m_flow_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.pIn_start
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.pOut_start
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.hIn_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.hOut_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.TIn_start
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.TOut_start
 -1       1                       0                       1                
  1   280   # EVA2.flueGasZone[2].tube.XIn_start[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].tube.XOut_start[1]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.useSubstanceStorage
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.useEnergyStorage
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.dp
  0       0                       0                       2                
  6  1282   # EVA2.flueGasZone[2].tube.state_from_a.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[2].tube.state_from_a.h
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.state_from_a.d
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.state_from_a.T
  0       0                       0                       2                
  6  1282   # EVA2.flueGasZone[2].tube.state_from_b.phase
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[2].tube.state_from_b.h
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.state_from_b.d
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.g
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].tube.numberOfNodes
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[2].tube.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.geoPipe.A
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.initializeInletPressure
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.h_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.additionalVolume
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.considerDynamicPressure
  0  1.667808707937750E+002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.heatedArea
  0  3.160000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.diameterInner
  0  4.200000000000000E+000       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.dz
  0  1.646961099088530E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.V
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.A
  0  1.317568879270820E+000       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.VTotal
  0  3.293922198177060E-003       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.VCell
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[2].tube.fluid[1].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[2].tube.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].tube.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].tube.fluid[1].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[2].tube.fluid[1].phase
 -1       0                       0                  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[2].tube.fluid[2].p
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[2].tube.fluid[2].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[2].tube.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].tube.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].tube.fluid[2].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[2].tube.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[2].tube.fluid[3].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[2].tube.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].tube.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].tube.fluid[3].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[2].tube.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[2].tube.fluid[4].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[2].tube.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].tube.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].tube.fluid[4].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[2].tube.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[2].tube.fluid[5].h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # EVA2.flueGasZone[2].tube.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].tube.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].tube.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].tube.fluid[5].MM
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # EVA2.flueGasZone[2].tube.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # EVA2.flueGasZone[2].tube.m_flows[1]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # EVA2.flueGasZone[2].tube.d_av
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.vol_av
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.dpfric
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.dphyd
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.dpHyd_start
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.dpFric_start
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T_start[5]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d_start[1]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d_start[2]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d_start[3]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d_start[4]
  0     150                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d_start[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.q_start
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.T[5]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d[1]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d[2]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d[3]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d[4]
  0       0                       0                  100000                
  6  1280   # EVA2.flueGasZone[2].tube.d[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.der(d[1])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.der(d[2])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.der(d[3])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.der(d[4])
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[2].tube.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[2].tube.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[2].tube.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[2].tube.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # EVA2.flueGasZone[2].tube.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[2].tube.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[2].tube.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[2].tube.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[2].tube.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # EVA2.flueGasZone[2].tube.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[2].tube.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[2].tube.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[2].tube.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[2].tube.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # EVA2.flueGasZone[2].tube.eta[5]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[2].tube.lambda[1]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[2].tube.lambda[2]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[2].tube.lambda[3]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[2].tube.lambda[4]
  0       1                       0                     500                
  6  1280   # EVA2.flueGasZone[2].tube.lambda[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.E_flows[1]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.E_flows[2]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.E_flows[3]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.E_flows[4]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.E_flows[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.qHeating[1]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.qHeating[2]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.qHeating[3]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.qHeating[4]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.qHeating[5]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # EVA2.flueGasZone[2].tube.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.hydP
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[2].tube.friction.geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.friction.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.geoPipe.A
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # EVA2.flueGasZone[2].tube.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # EVA2.flueGasZone[2].tube.friction.m_flowLaminar
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.diameterInner
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.A
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.friction.zeta
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.TWall[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.TWall[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.TWall[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.TWall[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].tube.TWall[5]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.delayInnerHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.timeDelayOfInnerHeatTransfer
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.useHeatInput
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.initializeWithZeroInnerHeatFlow
 -1   10000                       0                       0                
  1   280   # EVA2.flueGasZone[2].tube.alpha_start
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].tube.numberOfWallLayers
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.TWall_start[1]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.TWall_start[2]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.TWall_start[3]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.TWall_start[4]
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].tube.TWall_start[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.metal.rho
 -1  3.000000000000000E-001       0                       0                
  1   280   # EVA2.flueGasZone[2].tube.stressCoeffofWall.eta
 -1       2                       0                       0                
  1   280   # EVA2.flueGasZone[2].tube.stressCoeffofWall.alpha_t
 -1       2                       0                       0                
  1   280   # EVA2.flueGasZone[2].tube.stressCoeffofWall.alpha_m
 -1  1.400000000000000E-005       0                       0                
  1   280   # EVA2.flueGasZone[2].tube.stressCoeffofWall.beta
 -1  1.800000000000000E+011       0                       0                
  1   280   # EVA2.flueGasZone[2].tube.stressCoeffofWall.E
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.heatPort[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.heatPort[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.heatPort[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.heatPort[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.heatPort[5].Q_flow
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].tube.wall.numberOfNodes
  0       1                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].tube.wall.numberOfWallLayers
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.metal.rho
  0      80                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].tube.wall.numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.length
  0  3.160000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.diameterInner
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.wallThickness
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.considerConductivity
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.T_start[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].tube.wall.layer[1].numberOfNodes
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.layer[1].assumePlainHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].metal.rho
  0      80                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].tube.wall.layer[1].numberOfParallelTubes
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].length
  0  3.160000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].diameterInner
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].wallThickness
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.layer[1].useDynamicEquations
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.layer[1].considerConductivity
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].tube.wall.layer[1].considerAxialHeatTransfer
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].T_start[5]
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.wall.layer[1].port_int[1].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.wall.layer[1].port_int[2].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.wall.layer[1].port_int[3].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.wall.layer[1].port_int[4].Q_flow
  0       0                       0                       0                
  6   388   # EVA2.flueGasZone[2].tube.wall.layer[1].port_int[5].Q_flow
  0  3.558246379272140E-004       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].Am
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[2].tube.wall.layer[1].T[1]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.wall.layer[1].der(T[1])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[2].tube.wall.layer[1].T[2]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.wall.layer[1].der(T[2])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[2].tube.wall.layer[1].T[3]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.wall.layer[1].der(T[3])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[2].tube.wall.layer[1].T[4]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.wall.layer[1].der(T[4])
 -1       0                       0                  1.000000000000000E+100
  2   272   # EVA2.flueGasZone[2].tube.wall.layer[1].T[5]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].tube.wall.layer[1].der(T[5])
  0  1.580000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].rint
  0  1.905000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].rext
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].Tube_mass
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].HeatCap
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.layer[1].Q_flow_ax[5]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.stress.eta
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.stress.alpha_t
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.stress.alpha_m
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.stress.beta
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.stress.E
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.dT
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.ft
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.fm
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.wall.tension
  0       5                       0                       0                
  6   258   # EVA2.flueGasZone[2].tube.heatport.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.alpha[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.alpha[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.alpha[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.alpha[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].tube.alpha[5]
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[1].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[1].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[2].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[2].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[3].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[3].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[4].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[4].A
  0      80                       0                       0                
  6  1282   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.Nt
  0      21                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.L
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.s
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.r
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].geoPipe.A
  0  3.160000000000000E-002       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].diameterInner
  0  1.500000000000000E+000       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].steamQuality
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].dT
  0  9.000000000000000E-001       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].xdo
  0       1                       0                       0                
  6  1281   # EVA2.flueGasZone[2].tube.HT[5].isSinglePhase
  0  7.842671900421560E-004       0                       0                
  6  1280   # EVA2.flueGasZone[2].tube.HT[5].A
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].heatTransfer.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.lengthRe
  0  5.984734005088560E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.lengthNu
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.ACrossFlow
  0  2.010870625709750E+002       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.AHeatTransfer
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFGZ.pt
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFGZ.pl
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFGZ.Lw
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFGZ.Ld
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFGZ.Lh
  0       0                       0                       0                
  6   258   # EVA2.flueGasZone[2].heatTransfer.geoFGZ.Nr
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].heatTransfer.geoFGZ.staggered
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].heatTransfer.geoFins.finned
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].heatTransfer.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFins.h
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFins.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFins.b
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFins.w
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoFins.n
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[2].heatTransfer.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].heatTransfer.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.geoPipe.A
 -1     200                       0                       0                
  1   280   # EVA2.flueGasZone[2].heatTransfer.alpha_start
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].heatTransfer.state.X[6]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Re
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Pr
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Nu[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Nu[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Nu[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Nu[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Nu[5]
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].heatTransfer.cp
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].heatTransfer.eta
  0       1                       0                     500                
  6   256   # EVA2.flueGasZone[2].heatTransfer.lambda
  0       1                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatTransfer.Psi
 -1       1                       0                       0                
  1   280   # EVA2.flueGasZone[2].heatTransfer.heatingSurfaceFactor_set
 -1  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # EVA2.flueGasZone[2].mediumGasOut.h
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].mediumGasOut.der(h)
  0      10                       0                  100000                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].mediumGasOut.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].mediumGasOut.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].mediumGasOut.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.state.X[6]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].mediumGasOut.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].mediumGasOut.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].mediumGasOut.p_bar
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].mediumGas.h
  0      10                       0                  100000                
  6   256   # EVA2.flueGasZone[2].mediumGas.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].mediumGas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].mediumGas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].mediumGas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].mediumGas.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].mediumGas.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGas.state.X[6]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].mediumGas.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].mediumGas.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].mediumGas.T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].mediumGas.p_bar
  0      10                       0                  100000                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.d
  0  1.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.X[1]
  0  6.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.X[2]
  0  5.000000000000000E-002       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.X[3]
  0  7.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.X[4]
  0  1.400000000000000E-001       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].mediumGasIn.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # EVA2.flueGasZone[2].mediumGasIn.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.flueGasZone[2].mediumGasIn.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.p
  0     500                       1                   10000                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.T
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.state.X[6]
  0       0                       0                       0                
  6   257   # EVA2.flueGasZone[2].mediumGasIn.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].mediumGasIn.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.T_degC
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].mediumGasIn.p_bar
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].state_gas.X[1]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].state_gas.X[2]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].state_gas.X[3]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].state_gas.X[4]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].state_gas.X[5]
  0       0                       0                       1                
  6   256   # EVA2.flueGasZone[2].state_gas.X[6]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].V_gas
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].deltaT[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].deltaT[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].deltaT[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].deltaT[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].deltaT[5]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].T_start[1]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].T_start[2]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].T_start[3]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].T_start[4]
  0     500                       1                   10000                
  6  1280   # EVA2.flueGasZone[2].T_start[5]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].lengthCharacteristicRe
  0  2.010870625709750E+002       0                       0                
  6  1280   # EVA2.flueGasZone[2].Ah
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].temperatureRate[1]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].temperatureRate[2]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].temperatureRate[3]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].temperatureRate[4]
  0       0                       0                       0                
  6  1280   # EVA2.flueGasZone[2].temperatureRate[5]
  0  3.141592653589790E+000       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.pi
  0       5                       1                  1.000000000000000E+100
  6   258   # EVA2.flueGasZone[2].fins.numberOfNodes
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].fins.geoFins.finned
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].fins.geoFins.serrated
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoFins.h
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoFins.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoFins.b
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoFins.w
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoFins.n
  0      80                       0                       0                
  6   258   # EVA2.flueGasZone[2].fins.geoPipe.Nt
  0      21                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoPipe.L
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoPipe.H
  0  3.810000000000000E-002       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoPipe.d_out
  0  3.250000000000000E-003       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoPipe.s
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoPipe.r
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].fins.geoPipe.isCylindric
  0  7.842671900421560E-004       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.geoPipe.A
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.metal.cp
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.metal.lambda
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].fins.metal.rho
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].fins.T_start[1]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].fins.T_start[2]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].fins.T_start[3]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].fins.T_start[4]
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].fins.T_start[5]
  0       1                       0                       0                
  6   257   # EVA2.flueGasZone[2].fins.useDynamicEquations
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[2].fins.T[1]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].fins.der(T[1])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[2].fins.T[2]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].fins.der(T[2])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[2].fins.T[3]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].fins.der(T[3])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[2].fins.T[4]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].fins.der(T[4])
 -1     500                       1                   10000                
  2   272   # EVA2.flueGasZone[2].fins.T[5]
  0       0                       0                       0                
  3   256   # EVA2.flueGasZone[2].fins.der(T[5])
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.V
  0       0                       0                  1.000000000000000E+100
  6   256   # EVA2.flueGasZone[2].fins.M
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].fins.Cp
  0       5                       0                       0                
  6   258   # EVA2.flueGasZone[2].heatPortToGas.numberOfNodes
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatPortToGas.Q_flow[1]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatPortToGas.Q_flow[2]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatPortToGas.Q_flow[3]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatPortToGas.Q_flow[4]
  0       0                       0                       0                
  6   256   # EVA2.flueGasZone[2].heatPortToGas.Q_flow[5]
  0       2                       1                  1.000000000000000E+100
  6   258   # EVA2.splitter.numberOfPortsSplit
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.splitter.p_start
 -1       0                       0                       0                
  1   281   # EVA2.splitter.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.splitter.h_start
  0     500                       1                   10000                
  6   256   # EVA2.splitter.T_start
 -1       1                       0                       1                
  1   280   # EVA2.splitter.X_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA2.splitter.m_flow_start
  0       0                 -100000                  100000                
  6   256   # EVA2.splitter.m_flowOpposite_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA2.splitter.m_flowOpposite_start[2]
 -1       1                       0                       0                
  1   281   # EVA2.splitter.initializeSteadyMassBalance
 -1       1                       0                       0                
  1   281   # EVA2.splitter.initializeSteadyEnthalpyBalance
 -1       0                       0                       0                
  1   281   # EVA2.splitter.initializeFixedPressure
 -1       0                       0                       0                
  1   281   # EVA2.splitter.initializeFixedEnthalpy
  0       0                       0                       0                
  6   257   # EVA2.splitter.hasVolume
  0  3.000000000000000E-001       0                       0                
  6   256   # EVA2.splitter.V
  0       1                       0                       0                
  6   257   # EVA2.splitter.hasPressureDrop
  0       0                       0                       0                
  6   256   # EVA2.splitter.resistanceHydraulic
  0       0                 -100000                  100000                
  6   388   # EVA2.splitter.portsSplit[1].m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # EVA2.splitter.portsSplit[1].p
  0       0                 -100000                  100000                
  6   388   # EVA2.splitter.portsSplit[2].m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # EVA2.splitter.portsSplit[2].p
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.splitter.medium.h
  0     150                       0                  100000                
  6   256   # EVA2.splitter.medium.d
  0     500                       1                   10000                
  6   256   # EVA2.splitter.medium.T
  0       1                       0                       1                
  6   256   # EVA2.splitter.medium.X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.splitter.medium.u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.splitter.medium.R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.splitter.medium.MM
  0       0                       0                       0                
  6   257   # EVA2.splitter.medium.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.splitter.medium.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.splitter.medium.T_degC
  0       0                       0                       0                
  6   256   # EVA2.splitter.medium.p_bar
  0     500                       1                   10000                
  6   256   # EVA2.splitter.medium.sat.Tsat
  0       1                       0                       2                
  6   322   # EVA2.splitter.medium.phase
  0       0                 -100000                  100000                
  6   256   # EVA2.splitter.m_flowFromPortMix
  0       0                 -100000                  100000                
  6   256   # EVA2.splitter.m_flowFromPortsSplit[1]
  0       0                 -100000                  100000                
  6   256   # EVA2.splitter.m_flowFromPortsSplit[2]
  0       2                       1                  1.000000000000000E+100
  6   258   # EVA2.mixer.numberOfPortsSplit
  0  5.000000000000000E+006       0                  1.000000000000000E+008
  6   256   # EVA2.mixer.p_start
 -1       0                       0                       0                
  1   281   # EVA2.mixer.useTemperatureStartValue
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.mixer.h_start
  0     500                       1                   10000                
  6   256   # EVA2.mixer.T_start
 -1       1                       0                       1                
  1   280   # EVA2.mixer.X_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA2.mixer.m_flow_start
  0       0                 -100000                  100000                
  6   256   # EVA2.mixer.m_flowOpposite_start[1]
  0       0                 -100000                  100000                
  6   256   # EVA2.mixer.m_flowOpposite_start[2]
 -1       1                       0                       0                
  1   281   # EVA2.mixer.initializeSteadyMassBalance
 -1       1                       0                       0                
  1   281   # EVA2.mixer.initializeSteadyEnthalpyBalance
 -1       0                       0                       0                
  1   281   # EVA2.mixer.initializeFixedPressure
 -1       0                       0                       0                
  1   281   # EVA2.mixer.initializeFixedEnthalpy
  0       0                       0                       0                
  6   257   # EVA2.mixer.hasVolume
  0       0                       0                       0                
  6   256   # EVA2.mixer.V
  0       0                       0                       0                
  6   257   # EVA2.mixer.hasPressureDrop
 -1       2                       0                       0                
  1   280   # EVA2.mixer.resistanceHydraulic
  0       0                 -100000                  100000                
  6   388   # EVA2.mixer.portMix.m_flow
  0       0                 -100000                  100000                
  6   388   # EVA2.mixer.portsSplit[1].m_flow
  0       0                 -100000                  100000                
  6   388   # EVA2.mixer.portsSplit[2].m_flow
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.mixer.medium.h
  0     150                       0                  100000                
  6   256   # EVA2.mixer.medium.d
  0     500                       1                   10000                
  6   256   # EVA2.mixer.medium.T
  0       1                       0                       1                
  6   256   # EVA2.mixer.medium.X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # EVA2.mixer.medium.u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # EVA2.mixer.medium.R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # EVA2.mixer.medium.MM
  0       0                       0                       0                
  6   257   # EVA2.mixer.medium.preferredMediumStates
  0       1                       0                       0                
  6   257   # EVA2.mixer.medium.standardOrderComponents
  0       0                       0                       0                
  6   256   # EVA2.mixer.medium.T_degC
  0       0                       0                       0                
  6   256   # EVA2.mixer.medium.p_bar
  0     500                       1                   10000                
  6   256   # EVA2.mixer.medium.sat.Tsat
  0       1                       0                       2                
  6   322   # EVA2.mixer.medium.phase
  0       0                 -100000                  100000                
  6   256   # EVA2.mixer.m_flowFromPortMix
  0       0                 -100000                  100000                
  6   256   # EVA2.mixer.m_flowFromPortsSplit[1]
  0       0                 -100000                  100000                
  6   256   # EVA2.mixer.m_flowFromPortsSplit[2]
  0       0                       0                       1                
  6   260   # EVA2.portGasIn.Xi_outflow[1]
  0       0                       0                       1                
  6   260   # EVA2.portGasIn.Xi_outflow[2]
  0       0                       0                       1                
  6   260   # EVA2.portGasIn.Xi_outflow[3]
  0       0                       0                       1                
  6   260   # EVA2.portGasIn.Xi_outflow[4]
  0       0                       0                       1                
  6   260   # EVA2.portGasIn.Xi_outflow[5]
  0       0                       0                       1                
  6   260   # EVA2.portGasIn.Xi_outflow[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.hIn
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.hOut
  0       1                       0                       0                
  6   257   # downcomer.preferredStates
 -1  2.587000000000000E+001       0                       0                
  1   280   # downcomer.m_flow_start
 -1  1.370000000000000E+007       0                  1.000000000000000E+008
  1   280   # downcomer.pIn_start
 -1  1.390000000000000E+007       0                  1.000000000000000E+008
  1   280   # downcomer.pOut_start
  0       0                       0                       0                
  6   257   # downcomer.useTemperatureStartValue
 -1  5.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  1   280   # downcomer.hIn_start
 -1  5.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  1   280   # downcomer.hOut_start
  0     500                       1                   10000                
  6   256   # downcomer.TIn_start
  0     500                       1                   10000                
  6   256   # downcomer.TOut_start
 -1       1                       0                       1                
  1   280   # downcomer.XIn_start[1]
  0       0                       0                       1                
  6   256   # downcomer.XOut_start[1]
  0       0                       0                       0                
  6   257   # downcomer.useSubstanceStorage
  0       1                       0                       0                
  6   257   # downcomer.useEnergyStorage
  0       0                 -100000                  100000                
  6   388   # downcomer.portIn.m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # downcomer.portIn.p
  0       0                 -100000                  100000                
  6   388   # downcomer.portOut.m_flow
  0       0                       0                  1.000000000000000E+008
  6   260   # downcomer.portOut.p
  0       0                       0                       0                
  6   256   # downcomer.dp
  0       0                       0                       2                
  6  1282   # downcomer.state_from_a.phase
  0     150                       0                  100000                
  6  1280   # downcomer.state_from_a.d
  0     500                       1                   10000                
  6  1280   # downcomer.state_from_a.T
  0       0                       0                       2                
  6  1282   # downcomer.state_from_b.phase
  0     150                       0                  100000                
  6  1280   # downcomer.state_from_b.d
  0     500                       1                   10000                
  6  1280   # downcomer.state_from_b.T
  0  9.806649999999999E+000       0                       0                
  6   256   # downcomer.g
  0  3.141592653589790E+000       0                       0                
  6   256   # downcomer.pi
  0       5                       2                  1.000000000000000E+100
  6   258   # downcomer.numberOfNodes
  0       2                       0                       0                
  6   258   # downcomer.geoPipe.Nt
  0      26                       0                       0                
  6   256   # downcomer.geoPipe.L
 -1     -21                       0                       0                
  1   280   # downcomer.geoPipe.H
  0  1.683000000000000E-001       0                       0                
  6   256   # downcomer.geoPipe.d_out
  0  1.427000000000000E-002       0                       0                
  6   256   # downcomer.geoPipe.s
 -1  3.000000000000000E-005       0                       0                
  1   280   # downcomer.geoPipe.r
 -1  5.000000000000000E-001       0                       0                
  1   280   # downcomer.geoPipe.zeta_add
  0       1                       0                       0                
  6   257   # downcomer.geoPipe.isCylindric
  0  1.534107048494390E-002       0                       0                
  6   256   # downcomer.geoPipe.A
  0       1                       0                       0                
  6   257   # downcomer.initializeInletPressure
  0       1                       0                       0                
  6   257   # downcomer.initializeSteadyStateEnthalpies
  0       1                       0                       0                
  6   257   # downcomer.initializeSteadyStateInletEnthalpy
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.h_start[1]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.h_start[2]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.h_start[3]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.h_start[4]
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.h_start[5]
  0       0                       0                       0                
  6   256   # downcomer.Q_flow_start[1]
  0       0                       0                       0                
  6   256   # downcomer.Q_flow_start[2]
  0       0                       0                       0                
  6   256   # downcomer.Q_flow_start[3]
  0       0                       0                       0                
  6   256   # downcomer.Q_flow_start[4]
  0       0                       0                       0                
  6   256   # downcomer.Q_flow_start[5]
  0       0                       0                       0                
  6   256   # downcomer.additionalVolume
  0       1                       0                       0                
  6   257   # downcomer.useDynamicMassBalance
  0       1                       0                       0                
  6   257   # downcomer.considerDynamicMomentum
  0       0                       0                       0                
  6   257   # downcomer.considerDynamicPressure
  0  2.283158744181690E+001       0                       0                
  6   256   # downcomer.heatedArea
  0  1.397600000000000E-001       0                       0                
  6   256   # downcomer.diameterInner
  0  5.200000000000000E+000       0                       0                
  6   256   # downcomer.dz
  0  3.988678326085410E-001       0                       0                
  6   256   # downcomer.V
  0  1.534107048494390E-002       0                       0                
  6   256   # downcomer.A
  0  7.977356652170820E-001       0                       0                
  6   256   # downcomer.VTotal
  0  7.977356652170820E-002       0                       0                
  6   256   # downcomer.VCell
  0       0                       0                       0                
  6   256   # downcomer.sinphi
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # downcomer.fluid[1].h
  0       0                       0                       0                
  3   256   # downcomer.fluid[1].der(h)
  0       1                       0                       1                
  6   256   # downcomer.fluid[1].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.fluid[1].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # downcomer.fluid[1].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # downcomer.fluid[1].MM
  0       1                       0                       0                
  6   257   # downcomer.fluid[1].preferredMediumStates
  0       1                       0                       0                
  6   257   # downcomer.fluid[1].standardOrderComponents
  0       0                       0                       0                
  6   256   # downcomer.fluid[1].T_degC
  0       0                       0                       0                
  6   256   # downcomer.fluid[1].p_bar
  0     500                       1                   10000                
  6   256   # downcomer.fluid[1].sat.Tsat
  0       1                       0                       2                
  6   354   # downcomer.fluid[1].phase
 -1       0                       0                  1.000000000000000E+008
  2   272   # downcomer.fluid[2].p
  0       0                       0                       0                
  3   256   # downcomer.fluid[2].der(p)
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # downcomer.fluid[2].h
  0       0                       0                       0                
  3   256   # downcomer.fluid[2].der(h)
  0       1                       0                       1                
  6   256   # downcomer.fluid[2].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.fluid[2].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # downcomer.fluid[2].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # downcomer.fluid[2].MM
  0       1                       0                       0                
  6   257   # downcomer.fluid[2].preferredMediumStates
  0       1                       0                       0                
  6   257   # downcomer.fluid[2].standardOrderComponents
  0       0                       0                       0                
  6   256   # downcomer.fluid[2].T_degC
  0       0                       0                       0                
  6   256   # downcomer.fluid[2].p_bar
  0     500                       1                   10000                
  6   256   # downcomer.fluid[2].sat.Tsat
  0       1                       0                       2                
  6   354   # downcomer.fluid[2].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # downcomer.fluid[3].h
  0       0                       0                       0                
  3   256   # downcomer.fluid[3].der(h)
  0       1                       0                       1                
  6   256   # downcomer.fluid[3].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.fluid[3].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # downcomer.fluid[3].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # downcomer.fluid[3].MM
  0       1                       0                       0                
  6   257   # downcomer.fluid[3].preferredMediumStates
  0       1                       0                       0                
  6   257   # downcomer.fluid[3].standardOrderComponents
  0       0                       0                       0                
  6   256   # downcomer.fluid[3].T_degC
  0       0                       0                       0                
  6   256   # downcomer.fluid[3].p_bar
  0     500                       1                   10000                
  6   256   # downcomer.fluid[3].sat.Tsat
  0       1                       0                       2                
  6   354   # downcomer.fluid[3].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # downcomer.fluid[4].h
  0       0                       0                       0                
  3   256   # downcomer.fluid[4].der(h)
  0       1                       0                       1                
  6   256   # downcomer.fluid[4].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.fluid[4].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # downcomer.fluid[4].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # downcomer.fluid[4].MM
  0       1                       0                       0                
  6   257   # downcomer.fluid[4].preferredMediumStates
  0       1                       0                       0                
  6   257   # downcomer.fluid[4].standardOrderComponents
  0       0                       0                       0                
  6   256   # downcomer.fluid[4].T_degC
  0       0                       0                       0                
  6   256   # downcomer.fluid[4].p_bar
  0     500                       1                   10000                
  6   256   # downcomer.fluid[4].sat.Tsat
  0       1                       0                       2                
  6   354   # downcomer.fluid[4].phase
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # downcomer.fluid[5].h
  0       0                       0                       0                
  3   256   # downcomer.fluid[5].der(h)
  0       1                       0                       1                
  6   256   # downcomer.fluid[5].X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # downcomer.fluid[5].u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # downcomer.fluid[5].R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # downcomer.fluid[5].MM
  0       1                       0                       0                
  6   257   # downcomer.fluid[5].preferredMediumStates
  0       1                       0                       0                
  6   257   # downcomer.fluid[5].standardOrderComponents
  0       0                       0                       0                
  6   256   # downcomer.fluid[5].T_degC
  0       0                       0                       0                
  6   256   # downcomer.fluid[5].p_bar
  0     500                       1                   10000                
  6   256   # downcomer.fluid[5].sat.Tsat
  0       1                       0                       2                
  6   354   # downcomer.fluid[5].phase
 -1       0                 -100000                  100000                
  2   272   # downcomer.m_flows[1]
  0       0                       0                       0                
  3   256   # downcomer.der(m_flows[1])
  0       0                       0                  100000                
  6   256   # downcomer.d_av
  0       0                       0                       0                
  6   256   # downcomer.der(d_av)
  0       0                       0                  1.000000000000000E+100
  6   256   # downcomer.vol_av
  0       0                       0                       0                
  6   256   # downcomer.dpfric
  0       0                       0                       0                
  6   256   # downcomer.dphyd
  0       0                       0                       0                
  6  1280   # downcomer.dpHyd_start
  0       0                       0                       0                
  6  1280   # downcomer.dpFric_start
  0     500                       1                   10000                
  6  1280   # downcomer.T_start[1]
  0     500                       1                   10000                
  6  1280   # downcomer.T_start[2]
  0     500                       1                   10000                
  6  1280   # downcomer.T_start[3]
  0     500                       1                   10000                
  6  1280   # downcomer.T_start[4]
  0     500                       1                   10000                
  6  1280   # downcomer.T_start[5]
  0     150                       0                  100000                
  6  1280   # downcomer.d_start[1]
  0     150                       0                  100000                
  6  1280   # downcomer.d_start[2]
  0     150                       0                  100000                
  6  1280   # downcomer.d_start[3]
  0     150                       0                  100000                
  6  1280   # downcomer.d_start[4]
  0     150                       0                  100000                
  6  1280   # downcomer.d_start[5]
  0       0                       0                       0                
  6  1280   # downcomer.q_start
  0     500                       1                   10000                
  6  1280   # downcomer.T[1]
  0     500                       1                   10000                
  6  1280   # downcomer.T[2]
  0     500                       1                   10000                
  6  1280   # downcomer.T[3]
  0     500                       1                   10000                
  6  1280   # downcomer.T[4]
  0     500                       1                   10000                
  6  1280   # downcomer.T[5]
  0       0                       0                  100000                
  6  1280   # downcomer.d[1]
  0       0                       0                  100000                
  6  1280   # downcomer.d[2]
  0       0                       0                  100000                
  6  1280   # downcomer.d[3]
  0       0                       0                  100000                
  6  1280   # downcomer.d[4]
  0       0                       0                  100000                
  6  1280   # downcomer.d[5]
  0       0                       0                       0                
  6  1280   # downcomer.der(d[1])
  0       0                       0                       0                
  6  1280   # downcomer.der(d[2])
  0       0                       0                       0                
  6  1280   # downcomer.der(d[3])
  0       0                       0                       0                
  6  1280   # downcomer.der(d[4])
  0       0                       0                       0                
  6  1280   # downcomer.der(d[5])
  0       0                       0                  1.000000000000000E+100
  6  1280   # downcomer.vol[1]
  0       0                       0                  1.000000000000000E+100
  6  1280   # downcomer.vol[2]
  0       0                       0                  1.000000000000000E+100
  6  1280   # downcomer.vol[3]
  0       0                       0                  1.000000000000000E+100
  6  1280   # downcomer.vol[4]
  0       0                       0                  1.000000000000000E+100
  6  1280   # downcomer.vol[5]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # downcomer.cp[1]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # downcomer.cp[2]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # downcomer.cp[3]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # downcomer.cp[4]
  0    1000                       0                  1.000000000000000E+006
  6  1280   # downcomer.cp[5]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # downcomer.eta[1]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # downcomer.eta[2]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # downcomer.eta[3]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # downcomer.eta[4]
  0  1.000000000000000E-003       0                  1.000000000000000E+008
  6  1280   # downcomer.eta[5]
  0       1                       0                     500                
  6  1280   # downcomer.lambda[1]
  0       1                       0                     500                
  6  1280   # downcomer.lambda[2]
  0       1                       0                     500                
  6  1280   # downcomer.lambda[3]
  0       1                       0                     500                
  6  1280   # downcomer.lambda[4]
  0       1                       0                     500                
  6  1280   # downcomer.lambda[5]
  0       0                       0                       0                
  6  1280   # downcomer.E_flows[1]
  0       0                       0                       0                
  6  1280   # downcomer.E_flows[2]
  0       0                       0                       0                
  6  1280   # downcomer.E_flows[3]
  0       0                       0                       0                
  6  1280   # downcomer.E_flows[4]
  0       0                       0                       0                
  6  1280   # downcomer.E_flows[5]
  0       0                       0                       0                
  6  1280   # downcomer.qHeating[1]
  0       0                       0                       0                
  6  1280   # downcomer.qHeating[2]
  0       0                       0                       0                
  6  1280   # downcomer.qHeating[3]
  0       0                       0                       0                
  6  1280   # downcomer.qHeating[4]
  0       0                       0                       0                
  6  1280   # downcomer.qHeating[5]
  0       0                       0                       0                
  6   257   # downcomer.useDelayedPressure
 -1  1.000000000000000E-001       0                       0                
  1   280   # downcomer.timeDelayOfPressure
  0  4.000000000000000E-001       0                       0                
  6  1280   # downcomer.hydM
  0  6.000000000000000E-001       0                       0                
  6  1280   # downcomer.hydP
  0       2                       0                       0                
  6  1282   # downcomer.friction.geoPipe.Nt
  0      26                       0                       0                
  6  1280   # downcomer.friction.geoPipe.L
  0       0                       0                       0                
  6  1280   # downcomer.friction.geoPipe.H
  0  1.683000000000000E-001       0                       0                
  6  1280   # downcomer.friction.geoPipe.d_out
  0  1.427000000000000E-002       0                       0                
  6  1280   # downcomer.friction.geoPipe.s
  0       0                       0                       0                
  6  1280   # downcomer.friction.geoPipe.r
  0       0                       0                       0                
  6  1280   # downcomer.friction.geoPipe.zeta_add
  0       1                       0                       0                
  6  1281   # downcomer.friction.geoPipe.isCylindric
  0  1.534107048494390E-002       0                       0                
  6  1280   # downcomer.friction.geoPipe.A
  0      26                       0                       0                
  6  1280   # downcomer.friction.dz
 -1  2.000000000000000E-002       0                       0                
  1  1304   # downcomer.friction.lambda
  0  1.500000000000000E+000       0                       0                
  6  1280   # downcomer.friction.steamQuality
  0  9.000000000000000E-001       0                       0                
  6  1280   # downcomer.friction.xdo
  0       1                       0                       0                
  6  1281   # downcomer.friction.isSinglePhase
 -1  1.000000000000000E-003       0                       0                
  1  1304   # downcomer.friction.m_flowLaminar
  0  1.397600000000000E-001       0                       0                
  6  1280   # downcomer.friction.diameterInner
  0  1.534107048494390E-002       0                       0                
  6  1280   # downcomer.friction.A
  0       0                       0                       0                
  6  1280   # downcomer.friction.zeta
  0      10                       0                  100000                
  6   256   # gasSourceW.gas.d
  0       0                       0                       1                
  6   256   # gasSourceW.gas.X[1]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.X[2]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.X[3]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.X[4]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.X[5]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # gasSourceW.gas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # gasSourceW.gas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # gasSourceW.gas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # gasSourceW.gas.state.p
  0     500                       1                   10000                
  6   256   # gasSourceW.gas.state.T
  0       0                       0                       1                
  6   256   # gasSourceW.gas.state.X[1]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.state.X[2]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.state.X[3]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.state.X[4]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.state.X[5]
  0       0                       0                       1                
  6   256   # gasSourceW.gas.state.X[6]
  0       0                       0                       0                
  6   257   # gasSourceW.gas.preferredMediumStates
  0       1                       0                       0                
  6   257   # gasSourceW.gas.standardOrderComponents
  0       0                       0                       0                
  6   256   # gasSourceW.gas.T_degC
  0       0                       0                       0                
  6   256   # gasSourceW.gas.p_bar
 -1  1.013250000000000E+005       0                  1.000000000000000E+008
  1   280   # gasSourceW.p_start
 -1     390                       1                   10000                
  1   280   # gasSourceW.T_start
 -1  1.000000000000000E-002       0                       1                
  1   280   # gasSourceW.Xi_start[1]
 -1  6.000000000000000E-002       0                       1                
  1   280   # gasSourceW.Xi_start[2]
 -1  5.000000000000000E-002       0                       1                
  1   280   # gasSourceW.Xi_start[3]
 -1  7.400000000000000E-001       0                       1                
  1   280   # gasSourceW.Xi_start[4]
 -1  1.400000000000000E-001       0                       1                
  1   280   # gasSourceW.Xi_start[5]
 -1       0                       0                       1                
  1   280   # gasSourceW.Xi_start[6]
 -1  2.286800000000000E+002 -100000                  100000                
  1   280   # gasSourceW.m_flow_start
  0     500                       1                   10000                
  6   256   # gasSourceW.TPortActual
  0  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  6   260   # gasSourceW.port.h_outflow
  0       0                       0                       1                
  6   260   # gasSourceW.port.Xi_outflow[1]
  0       0                       0                       1                
  6   260   # gasSourceW.port.Xi_outflow[2]
  0       0                       0                       1                
  6   260   # gasSourceW.port.Xi_outflow[3]
  0       0                       0                       1                
  6   260   # gasSourceW.port.Xi_outflow[4]
  0       0                       0                       1                
  6   260   # gasSourceW.port.Xi_outflow[5]
  0       0                       0                       1                
  6   260   # gasSourceW.port.Xi_outflow[6]
 -1  1.013250000000000E+005       0                  1.000000000000000E+008
  1   280   # gasSinkP.p_start
 -1     300                       1                   10000                
  1   280   # gasSinkP.T_start
 -1  1.000000000000000E-002       0                       1                
  1   280   # gasSinkP.Xi_start[1]
 -1  6.000000000000000E-002       0                       1                
  1   280   # gasSinkP.Xi_start[2]
 -1  5.000000000000000E-002       0                       1                
  1   280   # gasSinkP.Xi_start[3]
 -1  7.400000000000000E-001       0                       1                
  1   280   # gasSinkP.Xi_start[4]
 -1  1.400000000000000E-001       0                       1                
  1   280   # gasSinkP.Xi_start[5]
 -1       0                       0                       1                
  1   280   # gasSinkP.Xi_start[6]
  0  3.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  6   260   # gasSinkP.portGas.h_outflow
  0       0                       0                       1                
  6   260   # gasSinkP.portGas.Xi_outflow[1]
  0       0                       0                       1                
  6   260   # gasSinkP.portGas.Xi_outflow[2]
  0       0                       0                       1                
  6   260   # gasSinkP.portGas.Xi_outflow[3]
  0       0                       0                       1                
  6   260   # gasSinkP.portGas.Xi_outflow[4]
  0       0                       0                       1                
  6   260   # gasSinkP.portGas.Xi_outflow[5]
  0       0                       0                       1                
  6   260   # gasSinkP.portGas.Xi_outflow[6]
  0      10                       0                  100000                
  6   256   # gasSinkP.gas.d
  0       0                       0                       1                
  6   256   # gasSinkP.gas.X[1]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.X[2]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.X[3]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.X[4]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.X[5]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.X[6]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # gasSinkP.gas.u
  0    1000                       0                  1.000000000000000E+006
  6   256   # gasSinkP.gas.R
  0  3.200000000000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # gasSinkP.gas.MM
  0       0                       0                  1.000000000000000E+008
  6   256   # gasSinkP.gas.state.p
  0     500                       1                   10000                
  6   256   # gasSinkP.gas.state.T
  0       0                       0                       1                
  6   256   # gasSinkP.gas.state.X[1]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.state.X[2]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.state.X[3]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.state.X[4]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.state.X[5]
  0       0                       0                       1                
  6   256   # gasSinkP.gas.state.X[6]
  0       0                       0                       0                
  6   257   # gasSinkP.gas.preferredMediumStates
  0       1                       0                       0                
  6   257   # gasSinkP.gas.standardOrderComponents
  0       0                       0                       0                
  6   256   # gasSinkP.gas.T_degC
  0       0                       0                       0                
  6   256   # gasSinkP.gas.p_bar
  0     500                       1                   10000                
  6   256   # gasSinkP.TPortActual
 -1  1.370930000000000E+007       0                  1.000000000000000E+008
  1   280   # watersink_ph.p_start
 -1  100000                 -1.000000000000000E+008  1.000000000000000E+008
  1   280   # watersink_ph.h_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # watersink_ph.hPortActual
  0     150                       0                  100000                
  6   256   # watersink_ph.water.d
  0     500                       1                   10000                
  6   256   # watersink_ph.water.T
  0       1                       0                       1                
  6   256   # watersink_ph.water.X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # watersink_ph.water.u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # watersink_ph.water.R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # watersink_ph.water.MM
  0       0                       0                       0                
  6   257   # watersink_ph.water.preferredMediumStates
  0       1                       0                       0                
  6   257   # watersink_ph.water.standardOrderComponents
  0       0                       0                       0                
  6   256   # watersink_ph.water.T_degC
  0       0                       0                       0                
  6   256   # watersink_ph.water.p_bar
  0     500                       1                   10000                
  6   256   # watersink_ph.water.sat.Tsat
  0       1                       0                       2                
  6   258   # watersink_ph.water.phase
  0       1                       0                       1                
  6  1280   # _GlobalScope.Modelica.Media.Interfaces.PartialPureSubstance.X_default[1]
 -1  2.587000000000000E+001 -100000                  100000                
  1   280   # watersource_mh.m_flow_start
 -1  5.000000000000000E+005 -1.000000000000000E+008  1.000000000000000E+008
  1   280   # watersource_mh.h_start
  0  100000                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # watersource_mh.h_port_actual
  0     150                       0                  100000                
  6   256   # watersource_mh.medium.d
  0     500                       1                   10000                
  6   256   # watersource_mh.medium.T
  0       1                       0                       1                
  6   256   # watersource_mh.medium.X[1]
  0       0                 -1.000000000000000E+008  1.000000000000000E+008
  6   256   # watersource_mh.medium.u
  0  4.615236365065450E+002       0                  1.000000000000000E+006
  6   256   # watersource_mh.medium.R
  0  1.801526800000000E-002  1.000000000000000E-003  2.500000000000000E-001
  6   256   # watersource_mh.medium.MM
  0       0                       0                       0                
  6   257   # watersource_mh.medium.preferredMediumStates
  0       1                       0                       0                
  6   257   # watersource_mh.medium.standardOrderComponents
  0       0                       0                       0                
  6   256   # watersource_mh.medium.T_degC
  0       0                       0                       0                
  6   256   # watersource_mh.medium.p_bar
  0     500                       1                   10000                
  6   256   # watersource_mh.medium.sat.Tsat
  0       1                       0                       2                
  6   322   # watersource_mh.medium.phase
 -1       0                       0                       0                
  1   280   # timeTable.table[1, 1]
 -1     390                       0                       0                
  1   280   # timeTable.table[1, 2]
 -1      10                       0                       0                
  1   280   # timeTable.table[2, 1]
 -1     390                       0                       0                
  1   280   # timeTable.table[2, 2]
 -1     900                       0                       0                
  1   280   # timeTable.table[3, 1]
 -1  7.111500000000000E+002       0                       0                
  1   280   # timeTable.table[3, 2]
 -1    1000                       0                       0                
  1   280   # timeTable.table[4, 1]
 -1  7.111500000000000E+002       0                       0                
  1   280   # timeTable.table[4, 2]
 -1       1                       0                       0                
  1   280   # timeTable.timeDelay
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[1, 1]
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[1, 2]
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[2, 1]
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[2, 2]
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[3, 1]
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[3, 2]
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[4, 1]
  0       0                       0                       0                
  6   256   # timeTable.originalTable.table[4, 2]
 -1       0                       0                       0                
  1   280   # timeTable.originalTable.offset
 -1       0                       0                       0                
  1   280   # timeTable.originalTable.startTime
  0       0                       0                       0                
  6   256   # timeTable.originalTable.y
  0       0                       0                       0                
  6  1344   # timeTable.originalTable.a
  0       0                       0                       0                
  6  1344   # timeTable.originalTable.b
  0       1                       0                       0                
  6  1346   # timeTable.originalTable.last
  0       0                       0                       0                
  6  1352   # timeTable.originalTable.nextEvent
 -1       0                       0                       0                
  2   272   # timeTable.C1signal.y
  0       0                       0                       0                
  3   256   # timeTable.C1signal.der(y)
  0       0                       0                       0                
  6   256   # timeTable.C1signal.timeDelay
 -1       0                       0                       0                
  1   280   # timeTable1.table[1, 1]
 -1  5.000000000000000E+005       0                       0                
  1   280   # timeTable1.table[1, 2]
 -1     100                       0                       0                
  1   280   # timeTable1.table[2, 1]
 -1  5.000000000000000E+005       0                       0                
  1   280   # timeTable1.table[2, 2]
 -1    2000                       0                       0                
  1   280   # timeTable1.table[3, 1]
 -1  2.338000000000000E+006       0                       0                
  1   280   # timeTable1.table[3, 2]
 -1    3000                       0                       0                
  1   280   # timeTable1.table[4, 1]
 -1  2.338000000000000E+006       0                       0                
  1   280   # timeTable1.table[4, 2]
 -1       2                       0                       0                
  1   280   # timeTable1.timeDelay
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[1, 1]
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[1, 2]
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[2, 1]
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[2, 2]
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[3, 1]
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[3, 2]
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[4, 1]
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.table[4, 2]
 -1       0                       0                       0                
  1   280   # timeTable1.originalTable.offset
 -1       0                       0                       0                
  1   280   # timeTable1.originalTable.startTime
  0       0                       0                       0                
  6   256   # timeTable1.originalTable.y
  0       0                       0                       0                
  6  1344   # timeTable1.originalTable.a
  0       0                       0                       0                
  6  1344   # timeTable1.originalTable.b
  0       1                       0                       0                
  6  1346   # timeTable1.originalTable.last
  0       0                       0                       0                
  6  1352   # timeTable1.originalTable.nextEvent
 -1       0                 -1.000000000000000E+008  1.000000000000000E+008
  2   272   # timeTable1.C1signal.y
  0       0                       0                       0                
  3   256   # timeTable1.C1signal.der(y)
  0       0                       0                       0                
  6   256   # timeTable1.C1signal.timeDelay


# Matrix with 6 columns defining the initial value calculation
# (columns 5 and 6 are not utilized for the calculation but are
#  reported by dymosim via dymosim -i for user convenience):
#
# column 1: Type of initial value
#           = -2: special case: for continuing simulation (column 2 = value)
#           = -1: fixed value (column 2 = fixed value)
#           =  0: free value, i.e., no restriction (column 2 = initial value)
#           >  0: desired value (column 1 = weight for optimization
#                                column 2 = desired value)
#                 use weight=1, since automatic scaling usually
#                 leads to equally weighted terms
# column 2: fixed, free or desired value according to column 1.
# column 3: Minimum value (ignored, if Minimum >= Maximum).
# column 4: Maximum value (ignored, if Minimum >= Maximum).
#           Minimum and maximum restrict the search range in initial
#           value calculation. They might also be used for scaling.
# column 5: Category of variable.
#           = 1: parameter.
#           = 2: state.
#           = 3: state derivative.
#           = 4: output.
#           = 5: input.
#           = 6: auxiliary variable.
# column 6: Data type of variable.
#           = 0: real.
#           = 1: boolean.
#           = 2: integer.
#
# Initial values are calculated according to the following procedure:
#
# - If parameters, states and inputs are FIXED, and other variables
#   are FREE, no special action takes place (default setting).
#
# - If there are only FIXED and FREE variables and the number of
#   FREE parameters, states and inputs is IDENTICAL to the number of
#   FIXED state derivatives, outputs and auxiliary variables, a non-linear
#   equation is solved to determine a consistent set of initial conditions.
#
# - In all other cases the following optimization problem is solved:
#      min( sum( weight(i)*( (value(i) - DESIRED(i))/scale(i) )^2 ) )
#   under the constraint that the differential equation is fulfilled
#   at the initial time. In most cases weight(i)=1 is sufficient, due
#   to the automatic scaling (if DESIRED(i) is not close to zero,
#   scale(i) = DESIRED(i). Otherwise, the scaling is based on the
#   nominal value (and maybe minimum and maximum values given in 
#   column 3 and 4). If these values are zero, scale(i)=1 is used).
#
char initialDescription(5458,95)
Number of tube layers
Number of water/steam cells per tube layer
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
With delay of qmf
artificial delay time for qmf [s]

Heat loss to ambient in %
Mixer has volume 
Volume of mixer [m3]
Hydraulic resistance at splitter outlets [Pa.s/kg]
Flue gas mass flow rate [kg/s]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0

Number of water nodes per tube
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
With delay of qmf
artificial delay time for qmf [s]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
Gas pressure [Pa|bar]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Gas mass flow rate [kg/s]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Cleanliness factor
instead of alpha and Tamb
Heat loss to ambient in %
heat loss coefficient [W/(m2.K)]
ambient temperature [K|degC]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
molar mass [kg/mol]
critical temperature [K|degC]
critical pressure [Pa|bar]
critical molar Volume [m3/mol]
Pitzer acentric factor
triple point temperature [K|degC]
triple point pressure [Pa|bar]
melting point at 101325 Pa [K|degC]
normal boiling point (at 101325 Pa) [K|degC]
dipole moment of molecule in Debye (1 debye = 3.33564e10-30 C.m) [debye]
true if ideal gas heat capacity is available
true if critical data are known
true if a dipole moment known
true if a fundamental equation
true if liquid heat capacity is available
true if solid heat capacity is available
true if accurate data for a viscosity function is available
true if accurate data for thermal conductivity is available
true if vapour pressure data, e.g. Antoine coefficents are known
true if Pitzer accentric factor is known
Critical specific enthalpy of the fundamental equation [J/kg]
Critical specific entropy of the fundamental equation [J/(kg.K)]
Difference between specific enthalpy model (h_m) and f.eq. (h_f) (h_m - h_f) [J/kg]
Difference between specific enthalpy model (s_m) and f.eq. (s_f) (s_m - s_f) [J/(kg.K)]
molar mass [kg/mol]
critical temperature [K|degC]
critical pressure [Pa|bar]
critical molar Volume [m3/mol]
Pitzer acentric factor
triple point temperature [K|degC]
triple point pressure [Pa|bar]
melting point at 101325 Pa [K|degC]
normal boiling point (at 101325 Pa) [K|degC]
dipole moment of molecule in Debye (1 debye = 3.33564e10-30 C.m) [debye]
true if ideal gas heat capacity is available
true if critical data are known
true if a dipole moment known
true if a fundamental equation
true if liquid heat capacity is available
true if solid heat capacity is available
true if accurate data for a viscosity function is available
true if accurate data for thermal conductivity is available
true if vapour pressure data, e.g. Antoine coefficents are known
true if Pitzer accentric factor is known
Critical specific enthalpy of the fundamental equation [J/kg]
Critical specific entropy of the fundamental equation [J/(kg.K)]
Difference between specific enthalpy model (h_m) and f.eq. (h_f) (h_m - h_f) [J/kg]
Difference between specific enthalpy model (s_m) and f.eq. (s_f) (s_m - s_f) [J/(kg.K)]
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
With delay of qMetalFluid
artificial delay time for qMetalFluid [s]
Initialisation of qMetalFluidDelayed=qMetalFluid
Initialisation of qMetalFluidDelayed=0
Heat transfer coefficient (not too small for valid wall temperature) [W/(m2.K)]
Number of wall layers
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Number of nodes
Number of wall layers
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With (small!) heat transfer in the wall parallel to the flow direction
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
[1]
Number of nodes
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With heat transfer in the wall parallel to the flow direction
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Area of the metal tube cross-section [m2]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
[m]
[m]
[kg]
HeatCapacity of a Tube part [J/K]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
[K,]
[Pa|bar]
[Pa|bar]
inside tangential+thermal tension at inlet [Pa]
Number of nodes
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of thermal port segments
Characteristic length for Reynolds number [m]
Characteristic length for Nusselt number [m]
Cross flow area [m2]
Total heat transfer area [m2]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Start/constant value of heat transfer coefficient [W/(m2.K)]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Reynolds number [1]
Prandtl number [1]
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Specific heat capacity [J/(kg.K)]
Dynamic viscosity [Pa.s]
Thermal conductivity [W/(m.K)]
crossing area shortening factor because of internals (factor for ACrossFlow) [1]
factor for A_h
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Molar mass [kg/mol]
Enthalpy of formation at 298.15K [J/kg]
H0(298.15K) - H0(0K) [J/kg]
Temperature limit between low and high data sets [K|degC]
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature coefficients a
Low temperature constants b
Low temperature constants b
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature coefficients a
High temperature constants b
High temperature constants b
Gas constant [J/(kg.K)]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
volume of gas layer [m3]
[K,]
[K,]
[K,]
[K,]
[K,]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[m]
Heat transfer area of unfinned tubes [m2]





[1]
Number of nodes
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
switch off for steady-state simulations
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin volume of a single tube [m3]
Fin mass of all tubes per node [kg]
Total fins Cp per node [J/K]
Number of nodes
[W]
[W]
[W]
[W]
[W]

Number of water nodes per tube
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
With delay of qmf
artificial delay time for qmf [s]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
Gas pressure [Pa|bar]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Gas mass flow rate [kg/s]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Cleanliness factor
instead of alpha and Tamb
Heat loss to ambient in %
heat loss coefficient [W/(m2.K)]
ambient temperature [K|degC]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
With delay of qMetalFluid
artificial delay time for qMetalFluid [s]
Initialisation of qMetalFluidDelayed=qMetalFluid
Initialisation of qMetalFluidDelayed=0
Heat transfer coefficient (not too small for valid wall temperature) [W/(m2.K)]
Number of wall layers
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Number of nodes
Number of wall layers
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With (small!) heat transfer in the wall parallel to the flow direction
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
[1]
Number of nodes
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With heat transfer in the wall parallel to the flow direction
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Area of the metal tube cross-section [m2]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
[m]
[m]
[kg]
HeatCapacity of a Tube part [J/K]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
[K,]
[Pa|bar]
[Pa|bar]
inside tangential+thermal tension at inlet [Pa]
Number of nodes
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of thermal port segments
Characteristic length for Reynolds number [m]
Characteristic length for Nusselt number [m]
Cross flow area [m2]
Total heat transfer area [m2]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Start/constant value of heat transfer coefficient [W/(m2.K)]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Reynolds number [1]
Prandtl number [1]
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Specific heat capacity [J/(kg.K)]
Dynamic viscosity [Pa.s]
Thermal conductivity [W/(m.K)]
crossing area shortening factor because of internals (factor for ACrossFlow) [1]
factor for A_h
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
volume of gas layer [m3]
[K,]
[K,]
[K,]
[K,]
[K,]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[m]
Heat transfer area of unfinned tubes [m2]





[1]
Number of nodes
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
switch off for steady-state simulations
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin volume of a single tube [m3]
Fin mass of all tubes per node [kg]
Total fins Cp per node [J/K]
Number of nodes
[W]
[W]
[W]
[W]
[W]

Number of water nodes per tube
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
With delay of qmf
artificial delay time for qmf [s]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
Gas pressure [Pa|bar]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Gas mass flow rate [kg/s]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Cleanliness factor
instead of alpha and Tamb
Heat loss to ambient in %
heat loss coefficient [W/(m2.K)]
ambient temperature [K|degC]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
With delay of qMetalFluid
artificial delay time for qMetalFluid [s]
Initialisation of qMetalFluidDelayed=qMetalFluid
Initialisation of qMetalFluidDelayed=0
Heat transfer coefficient (not too small for valid wall temperature) [W/(m2.K)]
Number of wall layers
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Number of nodes
Number of wall layers
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With (small!) heat transfer in the wall parallel to the flow direction
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
[1]
Number of nodes
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With heat transfer in the wall parallel to the flow direction
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Area of the metal tube cross-section [m2]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
[m]
[m]
[kg]
HeatCapacity of a Tube part [J/K]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
[K,]
[Pa|bar]
[Pa|bar]
inside tangential+thermal tension at inlet [Pa]
Number of nodes
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of thermal port segments
Characteristic length for Reynolds number [m]
Characteristic length for Nusselt number [m]
Cross flow area [m2]
Total heat transfer area [m2]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Start/constant value of heat transfer coefficient [W/(m2.K)]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Reynolds number [1]
Prandtl number [1]
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Specific heat capacity [J/(kg.K)]
Dynamic viscosity [Pa.s]
Thermal conductivity [W/(m.K)]
crossing area shortening factor because of internals (factor for ACrossFlow) [1]
factor for A_h
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
volume of gas layer [m3]
[K,]
[K,]
[K,]
[K,]
[K,]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[m]
Heat transfer area of unfinned tubes [m2]





[1]
Number of nodes
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
switch off for steady-state simulations
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin volume of a single tube [m3]
Fin mass of all tubes per node [kg]
Total fins Cp per node [J/K]
Number of nodes
[W]
[W]
[W]
[W]
[W]

Number of water nodes per tube
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
With delay of qmf
artificial delay time for qmf [s]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
Gas pressure [Pa|bar]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Gas mass flow rate [kg/s]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Cleanliness factor
instead of alpha and Tamb
Heat loss to ambient in %
heat loss coefficient [W/(m2.K)]
ambient temperature [K|degC]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
With delay of qMetalFluid
artificial delay time for qMetalFluid [s]
Initialisation of qMetalFluidDelayed=qMetalFluid
Initialisation of qMetalFluidDelayed=0
Heat transfer coefficient (not too small for valid wall temperature) [W/(m2.K)]
Number of wall layers
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Number of nodes
Number of wall layers
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With (small!) heat transfer in the wall parallel to the flow direction
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
[1]
Number of nodes
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With heat transfer in the wall parallel to the flow direction
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Area of the metal tube cross-section [m2]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
[m]
[m]
[kg]
HeatCapacity of a Tube part [J/K]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
[K,]
[Pa|bar]
[Pa|bar]
inside tangential+thermal tension at inlet [Pa]
Number of nodes
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of thermal port segments
Characteristic length for Reynolds number [m]
Characteristic length for Nusselt number [m]
Cross flow area [m2]
Total heat transfer area [m2]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Start/constant value of heat transfer coefficient [W/(m2.K)]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Reynolds number [1]
Prandtl number [1]
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Specific heat capacity [J/(kg.K)]
Dynamic viscosity [Pa.s]
Thermal conductivity [W/(m.K)]
crossing area shortening factor because of internals (factor for ACrossFlow) [1]
factor for A_h
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
volume of gas layer [m3]
[K,]
[K,]
[K,]
[K,]
[K,]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[m]
Heat transfer area of unfinned tubes [m2]





[1]
Number of nodes
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
switch off for steady-state simulations
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin volume of a single tube [m3]
Fin mass of all tubes per node [kg]
Total fins Cp per node [J/K]
Number of nodes
[W]
[W]
[W]
[W]
[W]

Number of water nodes per tube
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
With delay of qmf
artificial delay time for qmf [s]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
Gas pressure [Pa|bar]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Gas mass flow rate [kg/s]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Cleanliness factor
instead of alpha and Tamb
Heat loss to ambient in %
heat loss coefficient [W/(m2.K)]
ambient temperature [K|degC]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
With delay of qMetalFluid
artificial delay time for qMetalFluid [s]
Initialisation of qMetalFluidDelayed=qMetalFluid
Initialisation of qMetalFluidDelayed=0
Heat transfer coefficient (not too small for valid wall temperature) [W/(m2.K)]
Number of wall layers
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Number of nodes
Number of wall layers
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With (small!) heat transfer in the wall parallel to the flow direction
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
[1]
Number of nodes
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With heat transfer in the wall parallel to the flow direction
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Area of the metal tube cross-section [m2]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
[m]
[m]
[kg]
HeatCapacity of a Tube part [J/K]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
[K,]
[Pa|bar]
[Pa|bar]
inside tangential+thermal tension at inlet [Pa]
Number of nodes
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of thermal port segments
Characteristic length for Reynolds number [m]
Characteristic length for Nusselt number [m]
Cross flow area [m2]
Total heat transfer area [m2]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Start/constant value of heat transfer coefficient [W/(m2.K)]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Reynolds number [1]
Prandtl number [1]
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Specific heat capacity [J/(kg.K)]
Dynamic viscosity [Pa.s]
Thermal conductivity [W/(m.K)]
crossing area shortening factor because of internals (factor for ACrossFlow) [1]
factor for A_h
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
volume of gas layer [m3]
[K,]
[K,]
[K,]
[K,]
[K,]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[m]
Heat transfer area of unfinned tubes [m2]





[1]
Number of nodes
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
switch off for steady-state simulations
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin volume of a single tube [m3]
Fin mass of all tubes per node [kg]
Total fins Cp per node [J/K]
Number of nodes
[W]
[W]
[W]
[W]
[W]
Number of inlets(mixer) / outlets(splitter)
Pressure [Pa|bar]
Use temperature instead of specific enthalpy
Specific enthalpy [J/kg]
Guess value of temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Mass flow rate trough outlet(mixer, negative!) / inlet(splitter) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
ma=sum(mb)
der(h)=0, may be too much in case of mixer
p=p_start
h=h_start

[m3]
may be necessary in case of a splitter
Hydraulic resistance [Pa.s/kg]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Absolute pressure of medium [Pa|bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s]
[kg/s]
[kg/s]
[kg/s]
[kg/s]
Number of inlets(mixer) / outlets(splitter)
Pressure [Pa|bar]
Use temperature instead of specific enthalpy
Specific enthalpy [J/kg]
Guess value of temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Mass flow rate trough outlet(mixer, negative!) / inlet(splitter) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
ma=sum(mb)
der(h)=0, may be too much in case of mixer
p=p_start
h=h_start

[m3]
may be necessary in case of a splitter
Hydraulic resistance [Pa.s/kg]
Mass flow rate from the connection point into the component [kg/s]
Mass flow rate from the connection point into the component [kg/s]
Mass flow rate from the connection point into the component [kg/s]
Mass flow rate from the connection point into the component [kg/s]
Mass flow rate from the connection point into the component [kg/s]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s]
[kg/s]
[kg/s]
[kg/s]
[kg/s]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Number of tube layers
Number of water/steam cells per tube layer
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
With delay of qmf
artificial delay time for qmf [s]

Heat loss to ambient in %
Mixer has volume 
Volume of mixer [m3]
Hydraulic resistance at splitter outlets [Pa.s/kg]
Flue gas mass flow rate [kg/s]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0

Number of water nodes per tube
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
With delay of qmf
artificial delay time for qmf [s]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
Gas pressure [Pa|bar]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Gas mass flow rate [kg/s]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Cleanliness factor
instead of alpha and Tamb
Heat loss to ambient in %
heat loss coefficient [W/(m2.K)]
ambient temperature [K|degC]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
With delay of qMetalFluid
artificial delay time for qMetalFluid [s]
Initialisation of qMetalFluidDelayed=qMetalFluid
Initialisation of qMetalFluidDelayed=0
Heat transfer coefficient (not too small for valid wall temperature) [W/(m2.K)]
Number of wall layers
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Number of nodes
Number of wall layers
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With (small!) heat transfer in the wall parallel to the flow direction
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
[1]
Number of nodes
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With heat transfer in the wall parallel to the flow direction
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Area of the metal tube cross-section [m2]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
[m]
[m]
[kg]
HeatCapacity of a Tube part [J/K]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
[K,]
[Pa|bar]
[Pa|bar]
inside tangential+thermal tension at inlet [Pa]
Number of nodes
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of thermal port segments
Characteristic length for Reynolds number [m]
Characteristic length for Nusselt number [m]
Cross flow area [m2]
Total heat transfer area [m2]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Start/constant value of heat transfer coefficient [W/(m2.K)]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Reynolds number [1]
Prandtl number [1]
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Specific heat capacity [J/(kg.K)]
Dynamic viscosity [Pa.s]
Thermal conductivity [W/(m.K)]
crossing area shortening factor because of internals (factor for ACrossFlow) [1]
factor for A_h
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
volume of gas layer [m3]
[K,]
[K,]
[K,]
[K,]
[K,]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[m]
Heat transfer area of unfinned tubes [m2]





[1]
Number of nodes
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
switch off for steady-state simulations
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin volume of a single tube [m3]
Fin mass of all tubes per node [kg]
Total fins Cp per node [J/K]
Number of nodes
[W]
[W]
[W]
[W]
[W]

Number of water nodes per tube
Number of wall layers
Hydraulic resistance for gas flow [Pa.s/kg]
With delay of qmf
artificial delay time for qmf [s]
Total water/steam mass flow rate [kg/s]
start value for inlet pressure [Pa|bar]
start value for outlet pressure [Pa|bar]
start value for inlet enthalpy [J/kg]
start value for outlet enthalpy [J/kg]
Gas pressure [Pa|bar]
Inlet gas temperature [K|degC]
Outlet gas temperature [K|degC]
Gas mass flow rate [kg/s]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
Initialisation of qmf_del=qmf
Initialisation of qmf_del=0
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Start values for wall temperatures [K|degC]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Cleanliness factor
instead of alpha and Tamb
Heat loss to ambient in %
heat loss coefficient [W/(m2.K)]
ambient temperature [K|degC]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
Heat flow rates to ambient [W]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
specific enthalpy [J/kg]
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
With delay of qMetalFluid
artificial delay time for qMetalFluid [s]
Initialisation of qMetalFluidDelayed=qMetalFluid
Initialisation of qMetalFluidDelayed=0
Heat transfer coefficient (not too small for valid wall temperature) [W/(m2.K)]
Number of wall layers
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
start values for wall temperatures [K|degC]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Number of nodes
Number of wall layers
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With (small!) heat transfer in the wall parallel to the flow direction
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
Temperature start values for inner layer [K|degC]
[1]
Number of nodes
no logarithmic correction
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Number of parallel tubes
Tube length [m]
Internal diameter (single tube) [m]
Wall thickness [m]
switch off for steady-state simulations
Wall conduction resistance accounted for
With heat transfer in the wall parallel to the flow direction
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Heat flow rate (positive if flowing from outside into the component) [W]
Area of the metal tube cross-section [m2]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
Node temperatures [K|degC]
der(Node temperatures) [K/s]
[m]
[m]
[kg]
HeatCapacity of a Tube part [J/K]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
axial(parallel) heat transfer [W]
Poisson's ratio
stress concentration factor
tangential stress concentration factor
thermal expansion coefficient [1/K]
Young's modulus [Pa|bar]
[K,]
[Pa|bar]
[Pa|bar]
inside tangential+thermal tension at inlet [Pa]
Number of nodes
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
[W/(m2.K)]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
[m]

[K,]


[m2]
Number of thermal port segments
Characteristic length for Reynolds number [m]
Characteristic length for Nusselt number [m]
Cross flow area [m2]
Total heat transfer area [m2]
Transverse pitch between tubes [m]
Longitudal pitch between tubes [m]
Width of flue gas zone [m]
Depth of flue gas zone > tube's length  [m]
Height of flue gas zone [m]
Number of tube layers in bundle
Staggered tube arrangement instead of inline
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Start/constant value of heat transfer coefficient [W/(m2.K)]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Reynolds number [1]
Prandtl number [1]
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Nusselt number
Specific heat capacity [J/(kg.K)]
Dynamic viscosity [Pa.s]
Thermal conductivity [W/(m.K)]
crossing area shortening factor because of internals (factor for ACrossFlow) [1]
factor for A_h
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
volume of gas layer [m3]
[K,]
[K,]
[K,]
[K,]
[K,]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[m]
Heat transfer area of unfinned tubes [m2]





[1]
Number of nodes
Is finned tube
Is serrated (not solid fins)
height of fins [m]
width of fins [m]
base height  [m]
segment width [m]
no of fins per meter [m-1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
Specific heat capacity [J/(kg.K)]
Thermal conductivity [W/(m.K)]
Mass density [kg/m3|g/cm3]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
Temperature start values [K|degC]
switch off for steady-state simulations
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin temperatures [K|degC]
der(Fin temperatures) [K/s]
Fin volume of a single tube [m3]
Fin mass of all tubes per node [kg]
Total fins Cp per node [J/K]
Number of nodes
[W]
[W]
[W]
[W]
[W]
Number of inlets(mixer) / outlets(splitter)
Pressure [Pa|bar]
Use temperature instead of specific enthalpy
Specific enthalpy [J/kg]
Guess value of temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Mass flow rate trough outlet(mixer, negative!) / inlet(splitter) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
ma=sum(mb)
der(h)=0, may be too much in case of mixer
p=p_start
h=h_start

[m3]
may be necessary in case of a splitter
Hydraulic resistance [Pa.s/kg]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s]
[kg/s]
Number of inlets(mixer) / outlets(splitter)
Pressure [Pa|bar]
Use temperature instead of specific enthalpy
Specific enthalpy [J/kg]
Guess value of temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Mass flow rate trough outlet(mixer, negative!) / inlet(splitter) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
Mass flow rate trough inlets(mixer) / outlets(splitter, negative!) [kg/s]
ma=sum(mb)
der(h)=0, may be too much in case of mixer
p=p_start
h=h_start

[m3]
may be necessary in case of a splitter
Hydraulic resistance [Pa.s/kg]
Mass flow rate from the connection point into the component [kg/s]
Mass flow rate from the connection point into the component [kg/s]
Mass flow rate from the connection point into the component [kg/s]
Specific enthalpy of medium [J/kg]
Density of medium [kg/m3|g/cm3]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s]
[kg/s]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
actual state at portIn [J/kg]
actual state at portOut [J/kg]
Try to select preferred medium states
Guess value for mass flow rate [kg/s]
Start value of inlet pressure [Pa|bar]
Start value of outlet pressure [Pa|bar]
Use T_start if true, otherwise h_start
Start value of specific enthalpy [J/kg]
Start value of specific outlet enthalpy [J/kg]
Start value of temperature [K|degC]
Start value of  outlet temperature [K|degC]
Start value of mass fractions m_i/m [kg/kg]
Start value of mass fractions m_i/m [kg/kg]
consider composition storage
consider energy storage (else: isenthalpic transport)
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
Mass flow rate from the connection point into the component [kg/s]
Thermodynamic pressure in the connection point [Pa|bar]
[Pa|bar]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
density [kg/m3|g/cm3]
temperature [K|degC]
phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g. interactive use
density [kg/m3|g/cm3]
temperature [K|degC]
[m/s2]

Number of nodes for thermal variables
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
add steady state equation for pressure
lets initialize der(h)=0
steady state initial condition for input enthalpy
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
guess values for initial enthalpy vector [J/kg]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Detailed start values for heat flow [W]
Additional volume to total tubes volumes [m3]
consider mass storage
der(m_flow) accounted for, be careful!
With der(p)/d in enthalpy balance (for shock waves)
Total Area for heat transfer [m2]
[m]
[m]
[m3]
[m2]
[m3]
[m3]
[1]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Absolute pressure of medium [Pa|bar]
der(Absolute pressure of medium) [Pa/s]
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Specific enthalpy of medium [J/kg]
der(Specific enthalpy of medium) [m2/s3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
[kg/s]
[kg/s2]
[kg/m3|g/cm3]
[Pa.m-2.s]
[m3/kg]
[Pa|bar]
[Pa|bar]
[Pa|bar]
[Pa|bar]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
start values for fluid temperatures [K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[W/m2]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[K|degC]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[kg/m3|g/cm3]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[Pa.m-2.s]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[m3/kg]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[J/(kg.K)]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[Pa.s]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W/(m.K)]
[W]
[W]
[W]
[W]
[W]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
[W/m2]
Pressure delay
Artificial delay time for delay of pressure value [s]
Part of portIn for p [1]
Part of portIn for m_flow [1]
Number of parallel tubes
Length of tube [m]
Height difference between outlet and inlet [m]
Outer diameter of the tube [m]
Thickness of the wall [m]
Inner roughness (friction coefficient) of the wall [m]
Additive friction loss coefficient (for bendings)
assume circular (NOT quadratic) inner cross sectional area
inner cross sectional area [m2]
length of tube section for which friction pressure loss is wanted [m]
constant friction factor (used for valve friction model only)
Steam quality
Critical steam quality, at which the boiling crisis (e.g. dryout) occurs

nominal mass flow for laminar limit [kg/s]
[m]
[m2]

Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
Nominal pressure [Pa|bar]
Temperature [K|degC]
Gas composition [kg/kg]
Gas composition [kg/kg]
Gas composition [kg/kg]
Gas composition [kg/kg]
Gas composition [kg/kg]
Gas composition [kg/kg]
Mass flow rate [kg/s]
[K|degC]
Specific thermodynamic enthalpy close to the connection point if m_flow < 0 [J/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Pressure [Pa|bar]
Temperature for reverse flow [K|degC]
Gas composition for reverse flow [kg/kg]
Gas composition for reverse flow [kg/kg]
Gas composition for reverse flow [kg/kg]
Gas composition for reverse flow [kg/kg]
Gas composition for reverse flow [kg/kg]
Gas composition for reverse flow [kg/kg]
Specific thermodynamic enthalpy close to the connection point if m_flow < 0 [J/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Independent mixture mass fractions m_i/m close to the connection point if m_flow < 0 [kg/kg]
Density of medium [kg/m3|g/cm3]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
Absolute pressure of medium [Pa|bar]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
= true if StateSelect.prefer shall be used for the independent property variables of the medium

Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
[K|degC]
Pressure [Pa|bar]
Specific enthalpy for reverse flow [J/kg]
Specific enthalpy [J/kg]
Density of medium [kg/m3|g/cm3]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Default value for mass fractions of medium (for initialization) [kg/kg]
Mass flow rate [kg/s]
Specific enthalpy [J/kg]
Specific enthalpy [J/kg]
Density of medium [kg/m3|g/cm3]
Temperature of medium [K|degC]
Mass fractions (= (component mass)/total mass  m_i/m) [kg/kg]
Specific internal energy of medium [J/kg]
Gas constant (of mixture if applicable) [J/(kg.K)]
Molar mass (of mixture or single fluid) [kg/mol]
= true if StateSelect.prefer shall be used for the independent property variables of the medium
if true, and reducedX = true, the last element of X will be computed from the other ones
Temperature of medium in [degC] [degC;]
Absolute pressure of medium in [bar] [bar]
saturation temperature [K|degC]
2 for two-phase, 1 for one-phase, 0 if not known
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Delay time [s]
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Offset of output signal
Output = offset for time < startTime [s]
Connector of Real output signal [K]
Interpolation coefficients a of actual interval (y=a*x+b) [K/s]
Interpolation coefficients b of actual interval (y=a*x+b) [K]
Last used lower grid index
Next event instant [s]
[K]
[K/s]
[s]
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Table matrix (time = first column)
Delay time [s]
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Table matrix (time = first column; e.g. table=[0, 0; 1, 1; 2, 4])
Offset of output signal
Output = offset for time < startTime [s]
Connector of Real output signal [J/kg]
Interpolation coefficients a of actual interval (y=a*x+b) [m2/s3]
Interpolation coefficients b of actual interval (y=a*x+b) [J/kg]
Last used lower grid index
Next event instant [s]
[J/kg]
[m2/s3]
[s]

