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Select User defined to enter a value or an expression for the temperature.
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When present, select a temperature defined by a Heat Transfer interface in the model. For example, select Temperature (ht) to use the temperature defined by the Heat Transfer in Fluids interface with the ht name.
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Select User defined to enter a value or an expression for the absolute pressure.
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When present, select a pressure defined by a Fluid Flow interface present in the model. For example, select Absolute pressure (spf) to use the pressure defined in a Laminar Flow interface with spf as the name.
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For Ideal gas, the density is computed from the ideal gas law in the manner of:
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Select User defined to enter values or expressions for the velocity components. This input is always available.
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Select a velocity field defined by a Fluid Flow interface that solves for the velocity of the fluid. For example, select Velocity field (spf) to use the velocity field defined by in a Single-Phase Flow, Laminar Flow interface with spf as the Name.
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For the Millington and Quirk model, the effective transport factor is .
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For the Bruggeman model, the effective transport factor is .
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For the Tortuosity model, specify the tortuosity factor τF. Select either Isotropic to define a scalar value, or Diagonal or Symmetric to define anisotropic tensor values.
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Select User defined to enter a value or expression for the electric potential.
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When present, select an electric potential defined by an AC/DC interface that is present in the model. For example, select Electric potential (ec) to use the electric field defined an Electric Currents interface ec.
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