This feature is only available in a limited set of add-on products. See http://www.comsol.com/products/specifications/ for more details on availability.
|
•
|
Select User defined to enter a value or an expression for the temperature (SI unit: K). This input is always available.
|
•
|
If required, select a temperature defined by a Heat Transfer interface present in the model (if any). For example, select Temperature (ht) to use the temperature defined by the Heat Transfer in Fluids interface with the ht name.
|
•
|
Select User defined to enter a value or an expression for the absolute pressure (SI unit: Pa). This input is always available.
|
•
|
In addition, select a pressure defined by a Fluid Flow interface present in the model (if any). For example, select Absolute pressure (spf) to use the pressure defined in a Laminar Flow interface with spf as the Name.
|
•
|
For Ideal gas, the density is computed from the ideal gas law in the manner of:
|
•
|
•
|
Select User defined to enter values or expressions for the velocity components. This input is always available.
|
•
|
Select a velocity field defined by a Fluid Flow interface present in the model (if any). For example, select Velocity field (spf) to use the velocity field defined by the Fluid Properties node fp1 in a Single-Phase Flow, Laminar Flow interface with spf as the Name.
|
•
|
For the Millington and Quirk model, the effective transport factor is .
|
•
|
For the Bruggeman model, the effective transport factor is .
|
•
|
•
|
Select User defined to enter a value or expression for the electric potential. This input is always available.
|
•
|
If required, select an electric potential defined by an AC/DC interface that is present in the model (if any). For example, select Electric potential (ec) to use the electric field defined by the Current Conservation node cucn1 in an Electric Currents interface ec.
|