116#ifndef kOmegaSSTBase_H
117#define kOmegaSSTBase_H
128template<
class BasicEddyViscosityModel>
131 public BasicEddyViscosityModel
235 this->
type() +
":beta",
247 this->
type() +
":gamma",
291 typedef typename BasicEddyViscosityModel::alphaField
alphaField;
292 typedef typename BasicEddyViscosityModel::rhoField
rhoField;
293 typedef typename BasicEddyViscosityModel::transportModel
transportModel;
const volScalarField & psi2
const volScalarField & psi1
Field with dimensions and associated with geometry type GeoMesh which is used to size the field and a...
A simple wrapper around bool so that it can be read as a word: true/false, on/off,...
static autoPtr< Time > New()
Construct (dummy) Time - no functionObjects or libraries.
A list of keyword definitions, which are a keyword followed by a number of values (eg,...
Base class implementation of the k-omega-SST turbulence model for incompressible and compressible flo...
tmp< volScalarField::Internal > blend(const volScalarField::Internal &F1, const dimensionedScalar &psi1, const dimensionedScalar &psi2) const
void setDecayControl(const dictionary &dict)
tmp< volScalarField::Internal > gamma(const volScalarField::Internal &F1) const
Switch F3_
Flag to include the F3 term.
dimensionedScalar alphaOmega2_
virtual void correct()
Solve the turbulence equations and correct the turbulence viscosity.
virtual tmp< volScalarField > F2() const
dimensionedScalar gamma2_
virtual tmp< volScalarField > F23() const
BasicEddyViscosityModel::transportModel transportModel
tmp< volScalarField > blend(const volScalarField &F1, const dimensionedScalar &psi1, const dimensionedScalar &psi2) const
dimensionedScalar omegaInf_
virtual tmp< volScalarField::Internal > GbyNu(const volScalarField::Internal &GbyNu0, const volScalarField::Internal &F2, const volScalarField::Internal &S2) const
Return G/nu.
tmp< volScalarField > alphaK(const volScalarField &F1) const
dimensionedScalar alphaK2_
const volScalarField & y_
Wall distance.
tmp< volScalarField > DomegaEff(const volScalarField &F1) const
Return the effective diffusivity for omega.
tmp< volScalarField > alphaOmega(const volScalarField &F1) const
tmp< volScalarField::Internal > beta(const volScalarField::Internal &F1) const
dimensionedScalar alphaK1_
virtual tmp< fvScalarMatrix > Qsas(const volScalarField::Internal &S2, const volScalarField::Internal &gamma, const volScalarField::Internal &beta) const
Switch decayControl_
Flag to include the decay control.
virtual tmp< fvScalarMatrix > omegaSource() const
virtual void correctNut()
virtual tmp< fvScalarMatrix > kSource() const
virtual ~kOmegaSSTBase()=default
Destructor.
dimensionedScalar alphaOmega1_
virtual tmp< volScalarField::Internal > epsilonByk(const volScalarField &F1, const volTensorField &gradU) const
Return epsilon/k which for standard RAS is betaStar*omega.
virtual tmp< volScalarField::Internal > Pk(const volScalarField::Internal &G) const
Return k production rate.
virtual tmp< volScalarField > omega() const
Return the turbulence kinetic energy dissipation rate.
dimensionedScalar gamma1_
BasicEddyViscosityModel::rhoField rhoField
BasicEddyViscosityModel::alphaField alphaField
virtual tmp< volScalarField > k() const
Return the turbulence kinetic energy.
tmp< volScalarField > DkEff(const volScalarField &F1) const
Return the effective diffusivity for k.
dimensionedScalar betaStar_
virtual bool read()
Re-read model coefficients if they have changed.
virtual tmp< volScalarField > F3() const
A class for managing temporary objects.
static const word propertiesName
Default name of the turbulence properties dictionary.
A class for handling words, derived from Foam::string.
GeometricField< scalar, fvPatchField, volMesh > volScalarField
fileName::Type type(const fileName &name, const bool followLink=true)
Return the file type: DIRECTORY or FILE, normally following symbolic links.