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