This model is a heat exchanger with a moving fluid on one side and a stagnant fluid on the other. It is intended for use when a heat exchanger is submerged in a stagnant fluid. For example, the heat exchanger in a storage tank which is part of a solar thermal system.
This component models the fluid in the heat exchanger, convection between the fluid and the heat exchanger, and convection from the heat exchanger to the surrounding fluid.
The model is based on IBPSA.Fluid.HeatExchangers.BaseClasses.HACoilInside and IBPSA.Fluid.HeatExchangers.BaseClasses.HANaturalCylinder.
The fluid ports are intended to be connected to a circulated heat transfer fluid while the heat port is intended to be connected to a stagnant fluid.
Name | Description |
---|---|
MediumHex | Heat transfer fluid flowing through the heat exchanger |
MediumTan | Heat transfer fluid inside the tank |
final massDynamics=energyDynamics
.each
keyword.homotopyInitialization
to a constant.flowDependent
and temperatureDependent
in hAPipIns
.
This is for issue
#454.
fixed
attribute in cap.T
to avoid
unspecified initial conditions.
prescribedHeatFlowRate=false
in control volume.
energyDynamicsSolid
.
This is for
#434.
allowFlowReversal
.
MediumTan
for the tank medium, and assigned Medium
to be equal to MediumHex
.
This is to correct issue
#271.
cap
, and renamed this instance from
Cap
to cap
.
This was done to avoid a warning during translation, and to comply with
the coding convention.
show_V_flow
.