Exemplo n.º 1
0
void Foam::ThermoCloud<ParcelType>::evolveCloud()
{
    const volScalarField& T = thermo_.thermo().T();
    const volScalarField cp = thermo_.thermo().Cp();

    autoPtr<interpolation<scalar> > rhoInterp = interpolation<scalar>::New
    (
        this->interpolationSchemes(),
        this->rho()
    );

    autoPtr<interpolation<vector> > UInterp = interpolation<vector>::New
    (
        this->interpolationSchemes(),
        this->U()
    );

    autoPtr<interpolation<scalar> > muInterp = interpolation<scalar>::New
    (
        this->interpolationSchemes(),
        this->mu()
    );

    autoPtr<interpolation<scalar> > TInterp = interpolation<scalar>::New
    (
        this->interpolationSchemes(),
        T
    );

    autoPtr<interpolation<scalar> > cpInterp = interpolation<scalar>::New
    (
        this->interpolationSchemes(),
        cp
    );

    typename ParcelType::trackData td
    (
        *this,
        constProps_,
        rhoInterp(),
        UInterp(),
        muInterp(),
        TInterp(),
        cpInterp(),
        this->g().value()
    );

    this->surfaceFilm().inject(td);

    this->injection().inject(td);

    if (this->coupled())
    {
        resetSourceTerms();
    }

    Cloud<ParcelType>::move(td);
}
void Foam::KinematicCloud<ParcelType>::evolveCloud()
{
    autoPtr<interpolation<scalar> > rhoInterpolator =
        interpolation<scalar>::New
        (
            interpolationSchemes_,
            rho_
        );

    autoPtr<interpolation<vector> > UInterpolator =
        interpolation<vector>::New
        (
            interpolationSchemes_,
            U_
        );

    autoPtr<interpolation<scalar> > muInterpolator =
        interpolation<scalar>::New
        (
            interpolationSchemes_,
            mu_
        );

    typename ParcelType::trackData td
    (
        *this,
        constProps_,
        rhoInterpolator(),
        UInterpolator(),
        muInterpolator(),
        g_.value()
    );

    this->injection().inject(td);

    if (coupled_)
    {
        resetSourceTerms();
    }

    Cloud<ParcelType>::move(td);
}
Exemplo n.º 3
0
Foam::KinematicCloud<CloudType>::KinematicCloud
(
    const word& cloudName,
    const volScalarField& rho,
    const volVectorField& U,
    const volScalarField& mu,
    const dimensionedVector& g,
    bool readFields
)
:
    CloudType(rho.mesh(), cloudName, false),
    kinematicCloud(),
    cloudCopyPtr_(NULL),
    mesh_(rho.mesh()),
    particleProperties_
    (
        IOobject
        (
            cloudName + "Properties",
            rho.mesh().time().constant(),
            rho.mesh(),
            IOobject::MUST_READ_IF_MODIFIED,
            IOobject::NO_WRITE
        )
    ),
    solution_(mesh_, particleProperties_.subDict("solution")),
    constProps_(particleProperties_, solution_.active()),
    subModelProperties_
    (
        particleProperties_.subOrEmptyDict("subModels", solution_.active())
    ),
    rndGen_
    (
        label(0),
        solution_.steadyState() ?
        particleProperties_.lookupOrDefault<label>("randomSampleSize", 100000)
      : -1
    ),
    cellOccupancyPtr_(),
    rho_(rho),
    U_(U),
    mu_(mu),
    g_(g),
    pAmbient_(0.0),
    forces_
    (
        *this,
        mesh_,
        subModelProperties_.subOrEmptyDict
        (
            "particleForces",
            solution_.active()
        ),
        solution_.active()
    ),
    functions_
    (
        *this,
        particleProperties_.subOrEmptyDict("cloudFunctions"),
        solution_.active()
    ),
    dispersionModel_(NULL),
    injectionModel_(NULL),
    patchInteractionModel_(NULL),
    surfaceFilmModel_(NULL),
    UIntegrator_(NULL),
    UTrans_
    (
        new DimensionedField<vector, volMesh>
        (
            IOobject
            (
                this->name() + "UTrans",
                this->db().time().timeName(),
                this->db(),
                IOobject::READ_IF_PRESENT,
                IOobject::AUTO_WRITE
            ),
            mesh_,
            dimensionedVector("zero", dimMass*dimVelocity, vector::zero)
        )
    ),
    UCoeff_
    (
        new DimensionedField<scalar, volMesh>
        (
            IOobject
            (
                this->name() + "UCoeff",
                this->db().time().timeName(),
                this->db(),
                IOobject::READ_IF_PRESENT,
                IOobject::AUTO_WRITE
            ),
            mesh_,
            dimensionedScalar("zero",  dimMass, 0.0)
        )
    )
{
    if (solution_.active())
    {
        setModels();

        if (readFields)
        {
            parcelType::readFields(*this);
        }
    }

    if (solution_.resetSourcesOnStartup())
    {
        resetSourceTerms();
    }
}