For a steady-state problem the temperature does not change with time and the first term disappears.

This section is available when a temperature-dependent density defined in a material is used. On the material frame, the density is evaluated in relation to a reference temperature in order to ensure conservation of the mass in the presence of temperature variations. By default the Common model input is used. This corresponds to the variable minput.Tempref, which is set to 293.15 K by default. To edit it, click the Go to Source button (), and in the Default Model Inputs node under Global Definitions, set a value for the Volume reference temperature in the Expression for remaining selection section.

The other options are User defined and all temperature variables from the physics interfaces included in the model.

This section is available when material properties are temperature-dependent. By default, the temperature of the parent interface is used and the section is not editable. To edit the Temperature field, click Make All Model Inputs Editable (). The available options are: User defined (default), Common model input (the minput.T variable, set to 293.15 K by default) and all temperature variables from the physics interfaces included in the model. To edit the minput.T variable, click the Go to Source button (), and in the Default Model Inputs node under Global Definitions, set a value for the Temperature in the Expression for remaining selection section.

This section contains an input for the definition of the relative humidity, which is used in the right hand side of Equation 6-4.

The default Relative humidity is User defined. When additional physics interfaces are added to the model, the relative humidity variables defined by these physics interfaces can also be selected from the list. For example, if a Moisture Transport interface is added, you can select Relative humidity (mt/pm1) from the list. The Common model input option is the variable minput.phi, set to 0 by default. To edit it, click the Go to Source button (), and in the Default Model Inputs node under Global Definitions, set a value for the Relative humidity in the Expression for remaining selection section.

If the node was added automatically after selecting the predefined multiphysics interface Heat and Moisture Transport, the relative humidity of the multiphysics node Heat and Moisture is used by default and the section is not editable. To edit the Relative humidity field, click Make All Model Inputs Editable ().

This section provides two options for defining the effective thermal conductivity keff:

The Density ρs and the Specific heat capacity Cp,s should be specified. The default Density and Specific heat capacity are taken From material. For User defined, enter values or expressions in the editable fields.

The Moisture storage function should be set to characterize the relationship between the amount of water accumulated and the relative humidity in the material. The default Moisture storage function is taken From material. For User defined, enter another value or expression.

where δ (SI unit: s) is the vapor permeability of still air. The default Vapor resistance factor is taken From material. For User defined, enter another value or expression.

If the node was added automatically after selecting the predefined multiphysics interface Heat and Moisture Transport, the building material properties of the multiphysics node Heat and Moisture are used by default and the inputs are not editable. To edit these fields, click Make All Model Inputs Editable () in the Model Inputs section.

Physics tab with Heat Transfer in Solids and Fluids, Heat Transfer in Solids, Heat Transfer in Fluids, Heat Transfer in Porous Media, or Heat Transfer in Building Materials selected: