71 #ifndef VoFTurbulenceDamping_H
72 #define VoFTurbulenceDamping_H
82 class incompressibleTwoPhaseVoFMixture;
83 class incompressibleMomentumTransportModel;
132 const word& sourceName,
133 const word& modelType,
Generic GeometricField class.
A list of keyword definitions, which are a keyword followed by any number of values (e....
A special matrix type and solver, designed for finite volume solutions of scalar equations....
Mesh data needed to do the Finite Volume discretisation.
Finite volume model abstract base class.
const fvMesh & mesh() const
Return const access to the mesh database.
Free-surface turbulence damping function.
virtual bool movePoints()
Update for mesh motion.
TypeName("VoFTurbulenceDamping")
Runtime type information.
virtual wordList addSupFields() const
Return the list of fields for which the option adds source term.
VoFTurbulenceDamping(const word &sourceName, const word &modelType, const fvMesh &mesh, const dictionary &dict)
Construct from explicit source name and mesh.
virtual void addSup(const volScalarField &field, fvMatrix< scalar > &eqn) const
Add explicit contribution to epsilon or omega equation.
virtual void topoChange(const polyTopoChangeMap &)
Update topology using the given map.
virtual void distribute(const polyDistributionMap &)
Redistribute or update using the given distribution map.
virtual void mapMesh(const polyMeshMap &)
Update from another mesh using the given map.
void operator=(const VoFTurbulenceDamping &)=delete
Disallow default bitwise assignment.
Base class for single-phase incompressible turbulence models.
Class to represent a mixture of two constant density phases.
Class containing mesh-to-mesh mapping information after a mesh distribution where we send parts of me...
Class containing mesh-to-mesh mapping information.
Class containing mesh-to-mesh mapping information after a change in polyMesh topology.
A class for handling words, derived from string.
volScalarField alpha(IOobject("alpha", runTime.name(), mesh, IOobject::READ_IF_PRESENT, IOobject::AUTO_WRITE), lambda *max(Ua &U, zeroSensitivity))