Expansion Tank - lumped model
Model ExpansionTank describes the storage of fluid in
liquid phase in a closed volume filled with gas.
Pressure and enthalpy are selected as state
variables.
The assumptions for this model are:
- The gas is considered ideal and using Boyle's law: p_gas*V_gas
= Const = pstart*V_gas
- The gas is considered at the same temperature of the fluid
- The model is based on dynamic mass and energy balances of the
fluid
- The static pressure head due to the liquid level is taken into
account
- Thermal energy transfer due to external air convection through
the tank surface (lateral+top+bottom) is ensured by the
TankWall connector. The actual heat flow is computed by the
thermal energy model
- Minimum liquid level with respect to tank height= 0
- Maximum liquid level with respect to tank height= 0.5
The model is characterized by one flow connector.
The thermal energy transfer through the tank surface is computed
by the
ConvectiveHeatTransfer model which is inerithed in the
ExpansionTank model
Modelling options
In the General tab the following options are
availabe:
- Medium: the user has the possibility to easly switch
Medium.
- p_const:If true an user defined constant pressure is imposed to
the fluid volume --> closed tank at constant pressure
- HeatTransfer: selection between the different heat transfer
models available in ThermoCycle
Contents
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