Connectors and partial models
Extends from Modelica.Icons.InterfacesPackage (Icon for packages containing interfaces).
Name | Description |
---|---|
HeatPort | Thermal port for 1-dim. heat transfer |
HeatPort_a | Thermal port for 1-dim. heat transfer (filled rectangular icon) |
HeatPort_b | Thermal port for 1-dim. heat transfer (unfilled rectangular icon) |
Element1D | Partial heat transfer element with two HeatPort connectors that does not store energy |
PartialElementaryConditionalHeatPort | Partial model to include a conditional HeatPort in order to dissipate losses, used for textual modeling, i.e., for elementary models |
PartialElementaryConditionalHeatPortWithoutT | Partial model to include a conditional HeatPort in order to dissipate losses, used for textual modeling, i.e., for elementary models |
PartialConditionalHeatPort | Partial model to include a conditional HeatPort in order to dissipate losses, used for graphical modeling, i.e., for building models by drag-and-drop |
Thermal port for 1-dim. heat transfer
Name | Description |
---|---|
T | Port temperature [K] |
Q_flow | Heat flow rate (positive if flowing from outside into the component) [W] |
Thermal port for 1-dim. heat transfer (filled rectangular icon)
This connector is used for 1-dimensional heat flow between components. The variables in the connector are:
T Temperature in [Kelvin]. Q_flow Heat flow rate in [Watt].
According to the Modelica sign convention, a positive heat flow rate Q_flow is considered to flow into a component. This convention has to be used whenever this connector is used in a model class.
Note, that the two connector classes HeatPort_a and HeatPort_b are identical with the only exception of the different icon layout.
Extends from HeatPort (Thermal port for 1-dim. heat transfer).
Name | Description |
---|---|
T | Port temperature [K] |
Q_flow | Heat flow rate (positive if flowing from outside into the component) [W] |
Thermal port for 1-dim. heat transfer (unfilled rectangular icon)
This connector is used for 1-dimensional heat flow between components. The variables in the connector are:
T Temperature in [Kelvin]. Q_flow Heat flow rate in [Watt].
According to the Modelica sign convention, a positive heat flow rate Q_flow is considered to flow into a component. This convention has to be used whenever this connector is used in a model class.
Note, that the two connector classes HeatPort_a and HeatPort_b are identical with the only exception of the different icon layout.
Extends from HeatPort (Thermal port for 1-dim. heat transfer).
Name | Description |
---|---|
T | Port temperature [K] |
Q_flow | Heat flow rate (positive if flowing from outside into the component) [W] |
Partial heat transfer element with two HeatPort connectors that does not store energy
This partial model contains the basic connectors and variables to allow heat transfer models to be created that do not store energy, This model defines and includes equations for the temperature drop across the element, dT, and the heat flow rate through the element from port_a to port_b, Q_flow.
By extending this model, it is possible to write simple constitutive equations for many types of heat transfer components.
Name | Description |
---|---|
port_a | |
port_b |
Partial model to include a conditional HeatPort in order to dissipate losses, used for textual modeling, i.e., for elementary models
This partial model provides a conditional heat port for dissipating losses.
If this model is used, the loss power has to be provided by an equation in the model which inherits from PartialElementaryConditionalHeatPort model (lossPower = ...). The device temperature TheatPort can be used to describe the influence of the device temperature on the model behaviour.
Name | Description |
---|---|
useHeatPort | =true, if heatPort is enabled |
T | Fixed device temperature if useHeatPort = false [K] |
Name | Description |
---|---|
heatPort | Optional port to which dissipated losses are transported in form of heat |
Partial model to include a conditional HeatPort in order to dissipate losses, used for textual modeling, i.e., for elementary models
This partial model provides a conditional heat port for dissipating losses.
If this model is used, the loss power has to be provided by an equation in the model which inherits from the PartialElementaryConditionalHeatPortWithoutT model (lossPower = ...).
Note, this partial model is used in cases, where heatPort.T (that is the device temperature) is not utilized in the model. If this is desired, inherit instead from partial model PartialElementaryConditionalHeatPort.
Name | Description |
---|---|
useHeatPort | =true, if heatPort is enabled |
Name | Description |
---|---|
heatPort | Optional port to which dissipated losses are transported in form of heat |
Partial model to include a conditional HeatPort in order to dissipate losses, used for graphical modeling, i.e., for building models by drag-and-drop
This partial model provides a conditional heat port for dissipating losses.
If this model is used, the internalHeatPort has to be connected in the model which inherits from PartialElementaryConditionalHeatPort model. The device temperature internalHeatPort.T can be used to describe the influence of the device temperature on the model behaviour.
Name | Description |
---|---|
useHeatPort | =true, if HeatPort is enabled |
T | Fixed device temperature if useHeatPort = false [K] |
Name | Description |
---|---|
heatPort | Optional port to which dissipated losses are transported in form of heat |