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foam-extend4.1-coherent-io/applications/utilities/postProcessing/velocityField/Pe/Pe.C

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/*---------------------------------------------------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright held by original author
\\/ 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 2 of the License, or (at your
option) any later version.
OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with OpenFOAM; if not, write to the Free Software Foundation,
Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
Application
Pe
Description
Calculates and writes the Pe number as a surfaceScalarField obtained from
field phi.
The -noWrite option just outputs the max/min values without writing
the field.
\*---------------------------------------------------------------------------*/
#include "calc.H"
#include "fvc.H"
#include "incompressible/singlePhaseTransportModel/singlePhaseTransportModel.H"
#include "incompressible/RASModel/RASModel.H"
#include "incompressible/LESModel/LESModel.H"
#include "basicThermo.H"
#include "compressible/RASModel/RASModel.H"
#include "compressible/LESModel/LESModel.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
void Foam::calc(const argList& args, const Time& runTime, const fvMesh& mesh)
{
bool writeResults = !args.options().found("noWrite");
IOobject phiHeader
(
"phi",
runTime.timeName(),
mesh,
IOobject::MUST_READ
);
if (phiHeader.headerOk())
{
autoPtr<surfaceScalarField> PePtr;
Info<< " Reading phi" << endl;
surfaceScalarField phi(phiHeader, mesh);
volVectorField U
(
IOobject
(
"U",
runTime.timeName(),
mesh,
IOobject::MUST_READ
),
mesh
);
IOobject RASPropertiesHeader
(
"RASProperties",
runTime.constant(),
mesh,
IOobject::MUST_READ,
IOobject::NO_WRITE
);
IOobject LESPropertiesHeader
(
"LESProperties",
runTime.constant(),
mesh,
IOobject::MUST_READ,
IOobject::NO_WRITE
);
Info<< " Calculating Pe" << endl;
if (phi.dimensions() == dimensionSet(0, 3, -1, 0, 0))
{
if (RASPropertiesHeader.headerOk())
{
IOdictionary RASProperties(RASPropertiesHeader);
singlePhaseTransportModel laminarTransport(U, phi);
autoPtr<incompressible::RASModel> RASModel
(
incompressible::RASModel::New
(
U,
phi,
laminarTransport
)
);
PePtr.set
(
new surfaceScalarField
(
IOobject
(
"Pe",
runTime.timeName(),
mesh,
IOobject::NO_READ
),
mag(phi)
/(
mesh.magSf()
* mesh.surfaceInterpolation::deltaCoeffs()
* fvc::interpolate(RASModel->nuEff())
)
)
);
}
else if (LESPropertiesHeader.headerOk())
{
IOdictionary LESProperties(LESPropertiesHeader);
singlePhaseTransportModel laminarTransport(U, phi);
autoPtr<incompressible::LESModel> sgsModel
(
incompressible::LESModel::New(U, phi, laminarTransport)
);
PePtr.set
(
new surfaceScalarField
(
IOobject
(
"Pe",
runTime.timeName(),
mesh,
IOobject::NO_READ
),
mag(phi)
/(
mesh.magSf()
* mesh.surfaceInterpolation::deltaCoeffs()
* fvc::interpolate(sgsModel->nuEff())
)
)
);
}
else
{
IOdictionary transportProperties
(
IOobject
(
"transportProperties",
runTime.constant(),
mesh,
IOobject::MUST_READ,
IOobject::NO_WRITE
)
);
dimensionedScalar nu(transportProperties.lookup("nu"));
PePtr.set
(
new surfaceScalarField
(
IOobject
(
"Pe",
runTime.timeName(),
mesh,
IOobject::NO_READ
),
mesh.surfaceInterpolation::deltaCoeffs()
* (mag(phi)/mesh.magSf())*(runTime.deltaT()/nu)
)
);
}
}
else if (phi.dimensions() == dimensionSet(1, 0, -1, 0, 0))
{
if (RASPropertiesHeader.headerOk())
{
IOdictionary RASProperties(RASPropertiesHeader);
autoPtr<basicThermo> thermo(basicThermo::New(mesh));
volScalarField rho
(
IOobject
(
"rho",
runTime.timeName(),
mesh
),
thermo->rho()
);
autoPtr<compressible::RASModel> RASModel
(
compressible::RASModel::New
(
rho,
U,
phi,
thermo()
)
);
PePtr.set
(
new surfaceScalarField
(
IOobject
(
"Pe",
runTime.timeName(),
mesh,
IOobject::NO_READ
),
mag(phi)
/(
mesh.magSf()
* mesh.surfaceInterpolation::deltaCoeffs()
* fvc::interpolate(RASModel->muEff())
)
)
);
}
else if (LESPropertiesHeader.headerOk())
{
IOdictionary LESProperties(LESPropertiesHeader);
autoPtr<basicThermo> thermo(basicThermo::New(mesh));
volScalarField rho
(
IOobject
(
"rho",
runTime.timeName(),
mesh
),
thermo->rho()
);
autoPtr<compressible::LESModel> sgsModel
(
compressible::LESModel::New(rho, U, phi, thermo())
);
PePtr.set
(
new surfaceScalarField
(
IOobject
(
"Pe",
runTime.timeName(),
mesh,
IOobject::NO_READ
),
mag(phi)
/(
mesh.magSf()
* mesh.surfaceInterpolation::deltaCoeffs()
* fvc::interpolate(sgsModel->muEff())
)
)
);
}
else
{
IOdictionary transportProperties
(
IOobject
(
"transportProperties",
runTime.constant(),
mesh,
IOobject::MUST_READ,
IOobject::NO_WRITE
)
);
dimensionedScalar mu(transportProperties.lookup("mu"));
PePtr.set
(
new surfaceScalarField
(
IOobject
(
"Pe",
runTime.timeName(),
mesh,
IOobject::NO_READ
),
mesh.surfaceInterpolation::deltaCoeffs()
* (mag(phi)/(mesh.magSf()))*(runTime.deltaT()/mu)
)
);
}
}
else
{
FatalErrorIn(args.executable())
<< "Incorrect dimensions of phi: " << phi.dimensions()
<< abort(FatalError);
}
// can also check how many cells exceed a particular Pe limit
/*
{
label count = 0;
label PeLimit = 200;
forAll(PePtr(), i)
{
if (PePtr()[i] > PeLimit)
{
count++;
}
}
Info<< "Fraction > " << PeLimit << " = "
<< scalar(count)/Pe.size() << endl;
}
*/
Info << "Pe max : " << max(PePtr()).value() << endl;
if (writeResults)
{
PePtr().write();
}
}
else
{
Info<< " No phi" << endl;
}
}
// ************************************************************************* //
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