readThermalProperties.H File Reference
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Functions

IOobject CIO ("C", runTime.timeName(0), mesh, IOobject::NO_READ, IOobject::NO_WRITE)
 
const dictionary & CDict (thermalProperties.subDict("C"))
 
word CType (CDict.get< word >("type"))
 
 if (CType=="uniform")
 
IOobject rhoKIO ("k", runTime.timeName(0), mesh, IOobject::NO_READ, IOobject::NO_WRITE)
 
const dictionary & kDict (thermalProperties.subDict("k"))
 
word kType (kDict.get< word >("type"))
 
 if (kType=="uniform")
 
IOobject alphaIO ("alpha", runTime.timeName(0), mesh, IOobject::NO_READ, IOobject::NO_WRITE)
 
const dictionary & alphaDict (thermalProperties.subDict("alpha"))
 
word alphaType (alphaDict.get< word >("type"))
 
 if (alphaType=="uniform")
 

Variables

Info<< "Reading thermal properties\n"<< endl;IOdictionary thermalProperties(IOobject("thermalProperties", runTime.constant(), mesh, IOobject::MUST_READ_IF_MODIFIED, IOobject::NO_WRITE));bool thermalStress(thermalProperties.get< bool >"thermalStress"));volScalarField threeKalpha(IOobject("threeKalpha", runTime.timeName(), mesh, IOobject::NO_READ, IOobject::NO_WRITE), mesh, dimensionedScalar(dimensionSet(0, 2, -2, -1, 0), Zero));volScalarField DT(IOobject("DT", runTime.timeName(), mesh, IOobject::NO_READ, IOobject::NO_WRITE), mesh, dimensionedScalar(dimensionSet(0, 2, -1, 0, 0), Zero));if(thermalStress){ autoPtr< volScalarField > CPtr
 
 else
 
volScalarField & C = CPtr()
 
autoPtr< volScalarField > rhoKPtr
 
volScalarField & rhoK = rhoKPtr()
 
autoPtr< volScalarField > alphaPtr
 
volScalarField & alpha = alphaPtr()
 Fine-structure constant: default SI units: []. More...
 

Function Documentation

◆ CIO()

IOobject CIO ( "C"  ,
runTime.  timeName0,
mesh  ,
IOobject::NO_READ  ,
IOobject::NO_WRITE   
)

Referenced by if().

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◆ CDict()

const dictionary& CDict ( thermalProperties.  subDict"C")

Referenced by if().

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◆ CType()

word CType ( CDict.get< word >  "type")

◆ if() [1/3]

else if ( CType  = = "uniform")

Definition at line 62 of file readThermalProperties.H.

References CDict(), CIO(), CPtr, and mesh.

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◆ rhoKIO()

IOobject rhoKIO ( "k"  ,
runTime.  timeName0,
mesh  ,
IOobject::NO_READ  ,
IOobject::NO_WRITE   
)

Referenced by if().

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◆ kDict()

const dictionary& kDict ( thermalProperties.  subDict"k")

Referenced by if().

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◆ kType()

word kType ( kDict.get< word >  "type")

◆ if() [2/3]

else if ( kType  = = "uniform")

Definition at line 117 of file readThermalProperties.H.

References kDict(), mesh, rhoKIO(), and rhoKPtr.

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◆ alphaIO()

IOobject alphaIO ( "alpha"  ,
runTime.  timeName0,
mesh  ,
IOobject::NO_READ  ,
IOobject::NO_WRITE   
)

Referenced by if().

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◆ alphaDict()

const dictionary& alphaDict ( thermalProperties.  subDict"alpha")

Referenced by if().

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◆ alphaType()

word alphaType ( alphaDict.get< word >  "type")

◆ if() [3/3]

else if ( alphaType  = = "uniform")

Definition at line 174 of file readThermalProperties.H.

References alphaDict(), alphaIO(), alphaPtr, Foam::dimTemperature, Foam::inv(), and mesh.

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Variable Documentation

◆ CPtr

Info<< "Reading thermal properties\n" << endl;IOdictionary thermalProperties( IOobject ( "thermalProperties", runTime.constant(), mesh, IOobject::MUST_READ_IF_MODIFIED, IOobject::NO_WRITE ));bool thermalStress(thermalProperties.get<bool>"thermalStress"));volScalarField threeKalpha( IOobject ( "threeKalpha", runTime.timeName(), mesh, IOobject::NO_READ, IOobject::NO_WRITE ), mesh, dimensionedScalar(dimensionSet(0, 2, -2 , -1, 0), Zero));volScalarField DT( IOobject ( "DT", runTime.timeName(), mesh, IOobject::NO_READ, IOobject::NO_WRITE ), mesh, dimensionedScalar(dimensionSet(0, 2, -1 , 0, 0), Zero));if (thermalStress){ autoPtr<volScalarField> CPtr

Definition at line 49 of file readThermalProperties.H.

Referenced by if().

◆ else

else
Initial value:
{
<< "Valid type entries are uniform or field for C"

Definition at line 96 of file readThermalProperties.H.

◆ C

◆ rhoKPtr

autoPtr<volScalarField> rhoKPtr

Definition at line 104 of file readThermalProperties.H.

Referenced by if().

◆ rhoK

volScalarField& rhoK = rhoKPtr()

Definition at line 157 of file readThermalProperties.H.

◆ alphaPtr

autoPtr<volScalarField> alphaPtr

Definition at line 159 of file readThermalProperties.H.

Referenced by if(), and regionSizeDistribution::write().

◆ alpha

volScalarField& alpha = alphaPtr()

Fine-structure constant: default SI units: [].

Definition at line 212 of file readThermalProperties.H.

Referenced by PhaseLimitStabilization< Type >::addSup(), explicitPorositySource::addSup(), acousticDampingSource::addSup(), atmPlantCanopyUSource::addSup(), atmPlantCanopyTSource::addSup(), atmPlantCanopyTurbSource::addSup(), atmCoriolisUSource::addSup(), atmAmbientTurbSource::addSup(), atmLengthScaleTurbSource::addSup(), option::addSup(), atmBuoyancyTurbSource::addSup(), effectivenessHeatExchangerSource::addSup(), actuationDiskSource::addSup(), KinematicCloud< Cloud< basicKinematicCollidingParcel > >::alpha(), Foam::fvc::alphaCorr(), QRMatrix< MatrixType >::backSubstitution(), InterfaceForce< CloudType >::cacheFields(), averageCondition::calc(), valueAverage::calc(), BrownianMotionForce< CloudType >::calcCoupled(), wallHeatFlux::calcHeatFlux(), MUCSheterogeneousRate< CloudType >::calculate(), pointMVCWeight::calcWeights(), lookupProfile::Cdl(), seriesProfile::Cdl(), TrajectoryCollision< CloudType >::collideParcels(), thermocapillaryForce::correct(), contactAngleForce::correct(), Maxwell< BasicTurbulenceModel >::correct(), DeardorffDiffStress< BasicTurbulenceModel >::correct(), dynamicLagrangian< BasicTurbulenceModel >::correct(), kEqn< BasicTurbulenceModel >::correct(), thixotropicViscosity::correct(), dynamicKEqn< BasicTurbulenceModel >::correct(), kOmega< BasicTurbulenceModel >::correct(), SpalartAllmaras< BasicTurbulenceModel >::correct(), SSG< BasicTurbulenceModel >::correct(), realizableKE< BasicTurbulenceModel >::correct(), kEpsilon< EddyDiffusivity< compressible::turbulenceModel > >::correct(), RNGkEpsilon< BasicTurbulenceModel >::correct(), LaunderSharmaKE< BasicTurbulenceModel >::correct(), LRR< BasicTurbulenceModel >::correct(), kineticTheoryModel::correct(), SpalartAllmarasDES< BasicTurbulenceModel >::correct(), kEpsilonLopesdaCosta< BasicTurbulenceModel >::correct(), kEpsilonPhitF< BasicTurbulenceModel >::correct(), kOmegaSSTBase< eddyViscosity< RASModel< BasicTurbulenceModel > > >::correct(), solidification::correctModel(), kOmegaSSTLM< 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Foam::fluidThermo > >::New(), PhaseCompressibleTurbulenceModel< Foam::phaseModel >::New(), PhaseIncompressibleTurbulenceModel< TransportModel >::New(), laminarModel< BasicTurbulenceModel >::New(), RASModel< EddyDiffusivity< phaseCompressibleTurbulenceModel > >::New(), LESModel< BasicTurbulenceModel >::New(), Schaeffer::nu(), JohnsonJacksonSchaeffer::nu(), equilibrium::oneByTau(), isotropic::oneByTau(), nonEquilibrium::oneByTau(), optionList::operator()(), optionAdjointList::operator()(), SprayCloud< Foam::DSMCCloud >::penetration(), continuousGasKEqn< BasicTurbulenceModel >::phaseTransferCoeff(), continuousGasKEpsilon< BasicTurbulenceModel >::phaseTransferCoeff(), NicenoKEqn< BasicTurbulenceModel >::phaseTransferCoeff(), LaheyKEpsilon< BasicTurbulenceModel >::phaseTransferCoeff(), ParticleErosion< CloudType >::postPatch(), ParticleTrap< CloudType >::preEvolve(), reactingEulerHtcModel::q(), heatTransferCoeffModel::q(), cutFaceAdvect::quadAreaCoeffs(), randomCoalescence::R(), 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Foam::FatalError
error FatalError
Foam::abort
errorManip< error > abort(error &err)
Definition: errorManip.H:137
FatalErrorInFunction
#define FatalErrorInFunction
Report an error message using Foam::FatalError.
Definition: error.H:372