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60 #ifndef LienLeschziner_H
61 #define LienLeschziner_H
70 namespace incompressible
virtual tmp< volScalarField > epsilon() const
Return the turbulence kinetic energy dissipation rate.
tmp< volScalarField > fMu() const
A class for handling words, derived from Foam::string.
virtual ~LienLeschziner()=default
Destructor.
tmp< volScalarField > E(const volScalarField &f2) const
A class for managing temporary objects.
const dimensionedScalar alpha
Fine-structure constant: default SI units: [].
dimensionedScalar sigmak_
static const word propertiesName
Default name of the turbulence properties dictionary.
A class representing the concept of a GeometricField of 1 used to avoid unnecessary manipulations for...
LienLeschziner(const geometricOneField &alpha, const geometricOneField &rho, const volVectorField &U, const surfaceScalarField &alphaRhoPhi, const surfaceScalarField &phi, const transportModel &transport, const word &propertiesName=turbulenceModel::propertiesName, const word &type=typeName)
Construct from components.
dimensionedScalar sigmaEps_
virtual tmp< volScalarField > k() const
Return the turbulence kinetic energy.
tmp< volScalarField > DepsilonEff() const
Return the effective diffusivity for epsilon.
Lien and Leschziner low-Reynolds number k-epsilon turbulence model for incompressible flows.
GeometricField< scalar, fvPatchField, volMesh > volScalarField
Base-class for all transport models used by the incompressible turbulence models.
tmp< volScalarField > f2() const
virtual bool read()
Re-read model coefficients if they have changed.
fileName::Type type(const fileName &name, const bool followLink=true)
Return the file type: DIRECTORY or FILE, normally following symbolic links.
virtual void correctNut()
virtual void correct()
Solve the turbulence equations and correct the turbulence viscosity.
Eddy viscosity turbulence model base class.
TypeName("LienLeschziner")
const volScalarField & y_
Wall distance.
tmp< volScalarField > DkEff() const
Return the effective diffusivity for k.