TwoMass

Cooling of two hot masses

Diagram

Information

This information is part of the Modelica Standard Library maintained by the Modelica Association.

8th test example: TwoMass

Two thermal capacities are coupled with two parallel coolant flow. Different initial temperatures of thermal capacities and pipe's coolants get ambient's temperature, the time behaviour depending on coolant flow.

Parameters (4)

medium	Value: FluidHeatFlow.Media.Medium() Type: Medium Description: Cooling medium
TAmb	Value: 293.15 Type: Temperature (K) Description: Ambient temperature
TMass1	Value: 313.15 Type: Temperature (K) Description: Initial temperature of mass1
TMass2	Value: 333.15 Type: Temperature (K) Description: Initial temperature of mass2

Outputs (7)

dTMass1	Default Value: heatCapacitor1.port.T - TAmb Type: TemperatureDifference (K) Description: Mass1 over Ambient
dTtoPipe1	Default Value: heatCapacitor1.port.T - pipe1.T_q Type: TemperatureDifference (K) Description: Mass1 over Coolant1
dTCoolant1	Default Value: pipe1.dT Type: TemperatureDifference (K) Description: Coolant1's temperature increase
dTMass2	Default Value: heatCapacitor2.port.T - TAmb Type: TemperatureDifference (K) Description: Mass2 over Ambient
dTtoPipe2	Default Value: heatCapacitor2.port.T - pipe2.T_q Type: TemperatureDifference (K) Description: Mass2 over Coolant2
dTCoolant2	Default Value: pipe2.dT Type: TemperatureDifference (K) Description: Coolant2's temperature increase
dTmixedCoolant	Default Value: ambient2.T_port - ambient1.T_port Type: TemperatureDifference (K) Description: Mixed Coolant's temperature increase

Components (12)

	medium	Type: Medium Description: Cooling medium
	ambient1	Type: Ambient
	pump	Type: VolumeFlow
	pipe1	Type: Pipe
	pipe2	Type: Pipe
	pipe3	Type: Pipe
	ambient2	Type: Ambient
	heatCapacitor1	Type: HeatCapacitor
	thermalConductor1	Type: ThermalConductor
	heatCapacitor2	Type: HeatCapacitor
	thermalConductor2	Type: ThermalConductor
	volumeFlow	Type: DoubleRamp