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========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright (C) 1991-2010 OpenCFD Ltd.
\\/ M anipulation |
-------------------------------------------------------------------------------
License
This file is part of OpenFOAM.
OpenFOAM is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
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OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
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You should have received a copy of the GNU General Public License
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Class
Foam::compressible::RASModels::kOmegaSST
Description
Implementation of the k-omega-SST turbulence model for compressible flows.
Turbulence model described in:
@verbatim
Menter, F., Esch, T.
"Elements of Industrial Heat Transfer Prediction"
16th Brazilian Congress of Mechanical Engineering (COBEM),
Nov. 2001
@endverbatim
Note that this implementation is written in terms of alpha diffusion
coefficients rather than the more traditional sigma (alpha = 1/sigma) so
that the blending can be applied to all coefficuients in a consistent
manner. The paper suggests that sigma is blended but this would not be
consistent with the blending of the k-epsilon and k-omega models.
Also note that the error in the last term of equation (2) relating to
sigma has been corrected.
Wall-functions are applied in this implementation by using equations (14)
to specify the near-wall omega as appropriate.
The blending functions (15) and (16) are not currently used because of the
uncertainty in their origin, range of applicability and that is y+ becomes
sufficiently small blending u_tau in this manner clearly becomes nonsense.
The default model coefficients correspond to the following:
@verbatim
kOmegaSSTCoeffs
{
alphaK1 0.85034;
alphaK2 1.0;
alphaOmega1 0.5;
alphaOmega2 0.85616;
Prt 1.0; // only for compressible
beta1 0.075;
beta2 0.0828;
betaStar 0.09;
gamma1 0.5532;
gamma2 0.4403;
a1 0.31;
c1 10.0;
}
@endverbatim
SourceFiles
kOmegaSST.C
kOmegaWallFunctionsI.H
kOmegaWallViscosityI.H
wallOmegaI.H
\*---------------------------------------------------------------------------*/
#ifndef compressiblekOmegaSST_H
#define compressiblekOmegaSST_H
#include <compressibleRASModels/RASModel.H>
#include <finiteVolume/wallDist.H>
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
namespace Foam
{
namespace compressible
{
namespace RASModels
{
/*---------------------------------------------------------------------------*\
Class kOmegaSST Declaration
\*---------------------------------------------------------------------------*/
class kOmegaSST
:
public RASModel
{
// Private data
// Model coefficients
dimensionedScalar alphaK1_;
dimensionedScalar alphaK2_;
dimensionedScalar alphaOmega1_;
dimensionedScalar alphaOmega2_;
dimensionedScalar Prt_;
dimensionedScalar gamma1_;
dimensionedScalar gamma2_;
dimensionedScalar beta1_;
dimensionedScalar beta2_;
dimensionedScalar betaStar_;
dimensionedScalar a1_;
dimensionedScalar c1_;
//- Wall distance
// Note: different to wall distance in parent RASModel
wallDist y_;
// Fields
volScalarField k_;
volScalarField omega_;
volScalarField mut_;
volScalarField alphat_;
// Private member functions
tmp<volScalarField> F1(const volScalarField& CDkOmega) const;
tmp<volScalarField> F2() const;
tmp<volScalarField> blend
(
const volScalarField& F1,
const dimensionedScalar& psi1,
const dimensionedScalar& psi2
) const
{
return F1*(psi1 - psi2) + psi2;
}
tmp<volScalarField> alphaK(const volScalarField& F1) const
{
return blend(F1, alphaK1_, alphaK2_);
}
tmp<volScalarField> alphaOmega(const volScalarField& F1) const
{
return blend(F1, alphaOmega1_, alphaOmega2_);
}
tmp<volScalarField> beta(const volScalarField& F1) const
{
return blend(F1, beta1_, beta2_);
}
tmp<volScalarField> gamma(const volScalarField& F1) const
{
return blend(F1, gamma1_, gamma2_);
}
public:
//- Runtime type information
TypeName("kOmegaSST");
// Constructors
//- Construct from components
kOmegaSST
(
const volScalarField& rho,
const volVectorField& U,
const surfaceScalarField& phi,
const basicThermo& thermophysicalModel
);
//- Destructor
virtual ~kOmegaSST()
{}
// Member Functions
//- Return the effective diffusivity for k
tmp<volScalarField> DkEff(const volScalarField& F1) const
{
return tmp<volScalarField>
(
new volScalarField("DkEff", alphaK(F1)*mut_ + mu())
);
}
//- Return the effective diffusivity for omega
tmp<volScalarField> DomegaEff(const volScalarField& F1) const
{
return tmp<volScalarField>
(
new volScalarField("DomegaEff", alphaOmega(F1)*mut_ + mu())
);
}
virtual tmp<volScalarField> mut() const
{
return mut_;
}
//- Return the effective turbulent thermal diffusivity
virtual tmp<volScalarField> alphaEff() const
{
return tmp<volScalarField>
(
new volScalarField("alphaEff", alphat_ + alpha())
);
}
//- Return the turbulence kinetic energy
virtual tmp<volScalarField> k() const
{
return k_;
}
virtual tmp<volScalarField> omega() const
{
return omega_;
}
//- Return the turbulence kinetic energy dissipation rate
virtual tmp<volScalarField> epsilon() const
{
return tmp<volScalarField>
(
new volScalarField
(
IOobject
(
"epsilon",
mesh_.time().timeName(),
mesh_
),
betaStar_*k_*omega_,
omega_.boundaryField().types()
)
);
}
//- Return the Reynolds stress tensor
virtual tmp<volSymmTensorField> R() const;
//- Return the effective stress tensor including the laminar stress
virtual tmp<volSymmTensorField> devRhoReff() const;
//- Return the source term for the momentum equation
virtual tmp<fvVectorMatrix> divDevRhoReff(volVectorField& U) const;
//- Solve the turbulence equations and correct the turbulence viscosity
virtual void correct();
//- Read RASProperties dictionary
virtual bool read();
};
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
} // End namespace RASModels
} // End namespace compressible
} // End namespace Foam
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#endif
// ************************ vim: set sw=4 sts=4 et: ************************ //
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