Mesh_Motion

Syntax

Bc Lumped_Flux For Porous_Enthalpy ([{of} SpeciesName] | [{in} MaterialPhaseName] | [{ls} {a | b | c}]) {@ | at | for | on | over} Mesh Extent Name ([Touching TouchingMeshExtent] | [Opposing OpposingMeshExtent]) = Mesh_Motion [Using Data Specification Data Spec Name] ()

Summary

Moving boundary condition for Arbitrary Lagrangian-Eulerian (ALE) mesh motion in relative flux form. Accounts for the boundary advective flux due to general mesh motion.

Description

Applies the following boundary flux

$- \int q \mathbf{\hat{u}} \cdot \mathbf{n} dS,$

where $\hat{u}$ is the mesh velocity and where the integrated scalar $q$ depends on the equation. For the gas phase porous_enthalpy equation with a transported enthalpy = porous, $q = \phi \rho_g h_g$ . Similarly, for the gas phase mass_balance equation, $q = \phi \rho_g$ is the bulk mass density.

This flux boundary condition is automatically applied to the mass balance and porous enthalpy equations when the use relative mass flux porous flow option is turned on.

Parameter	Value	Default
{of}	{of \| species \| subindex}	–
SpeciesName	string	–
{in}	{in \| material_phase}	–
MaterialPhaseName	string	–
{ls}	{levelset_phase \| ls}	–
Mesh Extent Name	string	–
TouchingMeshExtent	string	–
OpposingMeshExtent	string	–
Data Spec Name	string	–