The Label is the default physics interface name.

The Name is used primarily as a scope prefix for variables defined by the physics interface. Refer to such physics interface variables in expressions using the pattern <name>.<variable_name>. In order to distinguish between variables belonging to different physics interfaces, the name string must be unique. Only letters, numbers, and underscores (_) are permitted in the Name field. The first character must be a letter.

The default Name (for the first physics interface in the model) is mt.

In 2D and 1D axisymmetric components, set the Thickness dz, which is the thickness of the domain in the out-of-plane direction. The default value is 1 m.

In 1D components, set the Cross sectional area Ac and the Cross sectional perimeter Pc of the domain. Default values are 1 m2 and , respectively.

Set the Reference vapor concentration, which is used when the moisture transport interface is coupled to a fluid flow interface with the Incompressible flow option selected in the Compressibility list. In this case, the fluid density is evaluated at the Reference pressure level (defined in the Physical Model section of the fluid flow interface), at the reference temperature defined in the moisture transport interface (293.15 K), and at the Reference vapor concentration specified in this section.

Choose the Mixture type for moist air:

Finally, select the Account for gravity in liquid velocity checkbox to enable the Gravity feature.

The Streamline diffusion checkbox is selected by default and should remain selected for optimal performance for applications that include a convective or translational term. Crosswind diffusion provides extra diffusion in regions with sharp gradients. The added diffusion is orthogonal to the streamlines, so streamline diffusion and crosswind diffusion can be used simultaneously. The Crosswind diffusion checkbox is also selected by default and is only available when the Streamline diffusion checkbox is selected.

The Isotropic diffusion checkbox is not selected by default. To add isotropic diffusion, select the Isotropic diffusion checkbox. The field for the tuning parameter δid then becomes available. The default value is 0.25; increase or decrease the value of δid to increase or decrease the amount of isotropic diffusion.

To display this section, click the Show More Options button () and select Advanced Physics Options. These settings only apply to the domains in which a Moist Air feature is active. Select a Convective term — Nonconservative form (the default) or Conservative form. The latter should be used for compressible flow.

Note that Diluted Species and Concentrated Species formulations are equivalent when using Conservative form, they can both be used for large vapor concentrations.

To display all settings available in this section, click the Show More Options button () and select Advanced Physics Options in the Show More Options dialog. The shape functions used for the relative humidity are by default Quadratic Lagrange in building materials, and Linear in moist air and porous media. Note that when a porous medium is used with Equilibrium between liquid and gas phases set to Nonequilibrium formulation, an additional dependent variable is solved for, the liquid saturation, which uses the same type of shape functions as the relative humidity.