The High Mach Number Reacting Flow, Diluted Species Coupling Feature

) multiphysics coupling to simulate mass transport in a gas mixture where the fluid flow contains dissolved dilute species.

Select a interface and a interface to couple fluid flow with mass transport.

The coupling synchronizes the features from a High Mach Number Flow interface and Transport of Diluted Species interface.

The velocity field used by the Transport of Diluted Species interface is synchronized to the one computed in the High Mach Number Flow interface.

The coupling feature automatically couples mass transfer on boundaries and applies a corresponding velocity contribution for the flow. Prescribing a net mass boundary flux in the interface, either using a or feature, the feature computes The Stefan Velocity and applies this in features using the same selection.

When a turbulence model is used, the coupling applies turbulence modeling for the mass transport in the following manners:

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Mass transport wall functions. When a turbulence model using wall functions is used for the fluid flow, the coupling automatically adds wall functions for the mass transport on the same boundaries (for more information, see Mass Transport Wall Functions).

The is the default multiphysics coupling feature name.

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

The default (for the first multiphysics coupling feature in the model) is hmnrfd1.

The coupling is automatically defined on the intersection of the selections for the coupled interfaces.

This section defines the physics involved in the multiphysics coupling. The andlists include all applicable physics interfaces.

The default values depend on how this coupling node is created.

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If it is added from the ribbon (Windows users), contextual toolbar (Mac and Linux users), or context menu (all users), then the first physics interface of each type in the component is selected as the default.

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If it is added automatically when a multiphysics interface is chosen in the or window, then the participating physics interfaces are selected.

You can also select from a list to uncouple the node from a physics interface.

Click the buttons (

) to move to the main physics interface node for the selected physics interface.

Click the button (

) to toggle the display of physics properties settings affecting the coupling feature. When a turbulence model is used, turbulent mass transfer is automatically accounted for (see the settings in the section below). Using coupling, the mass transfer treatment at walls follows that applied for the fluid flow. Therefore the setting is also displayed when using a turbulence model. For more information on turbulent mass transfer at walls, see the section Mass Transport Wall Functions in the CFD Module User’s Guide.

	If a physics interface is deleted and then added to the model again, then in order to reestablish the coupling, you need to choose the physics interface again from the Fluid flow and Species transport lists. This is applicable to all multiphysics coupling nodes that would normally default to the once present interface. See Multiphysics Modeling Workflow in the COMSOL Multiphysics Reference Manual.

When the fluid flow interface uses a turbulence model, select an option from the list — or .

For , enter a ScT (dimensionless).

The turbulent mass transfer added to the mass fraction equations is defined as,

, where, μT is the turbulent viscosity defined by the flow interface, and the turbulent Schmidt number, ScT, depends on the used.

The used by the fluid flow interface can be displayed by selecting the button at the right of the list.