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b51aaf0464f7f4c0f7396d31a23c8a005134b92d
OpenFOAM-12/tutorials/modules/incompressibleMultiphaseVoF/damBreak4phase/0/nut
Henry Weller ffdb211bdc solvers::incompressibleMultiphaseVoF: New solver module for multiphase VoF simulations 
executed with foamRun for single region simulations of foamMultiRun for
multi-region simulations.  Replaces multiphaseInterFoam and all the
corresponding tutorials have been updated and moved to
tutorials/modules/incompressibleMultiphaseVoF.

incompressibleMultiphaseVoF is derived from the multiphaseVoFSolver which adds
multiphase capability to the VoFSolver base-class used as the basis of all
two-phase and multiphase VoF solvers.

Class
    Foam::solvers::incompressibleMultiphaseVoF

Description
    Solver module for the solution of multiple incompressible, isothermal
    immiscible fluids using a VOF (volume of fluid) phase-fraction based
    interface capturing approach, with optional mesh motion and mesh topology
    changes including adaptive re-meshing.

    The momentum and other fluid properties are of the "mixture" and a single
    momentum equation is solved.

    A mixture approach for momentum transport is provided in which a single
    laminar, RAS or LES model is selected to model the momentum stress.

    Uses the flexible PIMPLE (PISO-SIMPLE) solution for time-resolved and
    pseudo-transient and steady simulations.

SourceFiles
    incompressibleMultiphaseVoF.C

See also
    Foam::solvers::VoFSolver
    Foam::solvers::multiphaseVoFSolver
2023-01-10 10:12:43 +00:00

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/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
format ascii;
class volScalarField;
location "0";
object nut;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
dimensions [0 2 -1 0 0 0 0];
internalField uniform 0;
boundaryField
{
leftWall
{
type nutkWallFunction;
value uniform 0;
}
rightWall
{
type nutkWallFunction;
value uniform 0;
}
lowerWall
{
type nutkWallFunction;
value uniform 0;
}
atmosphere
{
type calculated;
value uniform 0;
}
defaultFaces
{
type empty;
}
}
// ************************************************************************* //
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