.FreeFluids.LMedia.LMedium .FreeFluids.LMedia.LMedium| Name | Description |
|---|---|
 liqViscPcorLucas |
Lucas liquid viscosity pressure correction. |
 liqThCondLatini |
|
 liqSurfTensSastriRao |
|
 BaseProperties |
|
 ThermodynamicState |
|
 setState_pTX |
Return ThermodynamicState record as function of p,T and composition X or Xi |
 setState_dTX |
Return ThermodynamicState record as function of T,d and composition X or Xi |
 setState_phX |
Return ThermodynamicState record as function of p,H and composition X or Xi |
 setState_psX |
Return thermodynamic state as function of p, s and composition X or Xi |
 pressure |
Return pressure |
 temperature |
Return temperature |
 density |
Return density |
 density_derp_T |
Return density derivative w.r.t. pressure at const temperature. OK |
 density_derT_p |
Return density derivative w.r.t. temperature at constant pressure. OK |
 density_derp_h |
Return density derivative w.r.t. pressure at const specific enthalpy. Numerical derivative in two phases differs from HelmholtzMedia, but is similar to ExternalMedia |
 density_derh_p |
Return density derivative w.r.t. specific enthalpy at constant pressure. OK |
 specificEnthalpy |
Return specific enthalpy |
 specificInternalEnergy |
Return specific internal energy |
 specificEntropy |
Return specific entropy |
 specificGibbsEnergy |
Return specific Gibbs energy |
 specificHelmholtzEnergy |
Return specific Helmholtz energy |
 specificHeatCapacityCp |
Return specific heat capacity at constant pressure. OK |
 specificHeatCapacityCv |
Return heat capacity at constant volume |
 isentropicExponent |
Return isentropic exponent |
 isobaricExpansionCoefficient |
Returns the approximate isobaric expansion coefficient beta=dV_dT/V |
 isothermalCompressibility |
Returns overall the isothermal compressibility factor |
 velocityOfSound |
Return velocity of sound |
 jouleThomsonCoefficient |
|
 dynamicViscosity |
Return dynamic viscosity |
 thermalConductivity |
Return thermal conductivity |
 molarMass |
Return the molar mass of the medium |
 surfaceTension |
Return surface tension |
 setSmoothState |
Return thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b |
 density_pT |
|
 density_pT_state |
|
 specificEnthalpy_pT |
|
 specificEnthalpy_pT_state |
|
 density_pT_der |
|
 specificEnthalpy_pT_der |
|
 density_ph |
|
 density_ph_state |
|
 temperature_ph |
|
 temperature_ph_state |
|
 density_ph_der |
|
 temperature_ph_der |
|
 pressure_dT |
|
 pressure_dT_state |
|
 specificEnthalpy_dT |
|
 specificEnthalpy_dT_state |
|
 pressure_dT_der |
|
 pressure_derd_T |
pressure derivative w.r.t. density at constant T. OK |
 pressure_derT_d |
pressure derivative w.r.t. T at constant density. OK |
 specifiEnthalpy_dT_der |
|
 specificEnthalpy_derd_T |
pressure derivative w.r.t. density at constant T. OK, but it seems clear that beta and kappa are bad calculated for the gas |
 specificEnthalpy_derT_d |
pressure derivative w.r.t. density at constant T. To be finished analyticaly for two phases |