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Functions | |
| rho | relax () |
| volScalarField | rAU ("rAU", 1.0/UEqn().A()) |
| surfaceScalarField | rhorAUf ("rhorAUf", fvc::interpolate(rho *rAU)) |
| volVectorField | HbyA ("HbyA", U) |
| UEqn | clear () |
| surfaceScalarField | phig (-rhorAUf *ghf *fvc::snGrad(rho) *mesh.magSf()) |
| surfaceScalarField | phiHbyA ("phiHbyA",(fvc::interpolate(rho *HbyA) &mesh.Sf())) |
| MRF | makeRelative (fvc::interpolate(rho), phiHbyA) |
| setSnGrad< fixedFluxPressureFvPatchScalarField > (p_rgh.boundaryField(),(phiHbyA.boundaryField() - MRF.relative(mesh.Sf().boundaryField() &U.boundaryField()) *rho.boundaryField())/(mesh.magSf().boundaryField() *rhorAUf.boundaryField())) | |
| for (int nonOrth=0;nonOrth<=nNonOrthCorr;nonOrth++) | |
| if (closedVolume &&compressible) | |
Variables | |
| rho = max(rho, rhoMin[i]) | |
| HbyA = rAU*UEqn().H() | |
| bool | closedVolume = adjustPhi(phiHbyA, U, p_rgh) |
| phiHbyA = phig | |
| dimensionedScalar | compressibility = fvc::domainIntegrate(psi) |
| bool | compressible = (compressibility.value() > SMALL) |
| p = p_rgh + rho*gh | |
| rho relax | ( | ) |
| volScalarField rAU | ( | "rAU" | , |
| 1.0/ | UEqn).A( | ||
| ) |
Referenced by meanVelocityForce::correct(), directionalPressureGradientExplicitSource::correct(), for(), if(), and while().
| volVectorField HbyA | ( | "HbyA" | , |
| U | |||
| ) |
| UEqn clear | ( | ) |
| setSnGrad< fixedFluxPressureFvPatchScalarField > | ( | p_rgh. | boundaryField(), |
| (phiHbyA.boundaryField() - MRF.relative(mesh.Sf().boundaryField() &U.boundaryField()) *rho.boundaryField())/(mesh.magSf().boundaryField() *rhorAUf.boundaryField()) | |||
| ) |
| for | ( | int | nonOrth = 0; nonOrth<=nNonOrthCorr; nonOrth++ | ) |
Definition at line 43 of file pEqn.H.
References compressible, Foam::fvc::div(), fvOptions, Foam::getRefCellValue(), HbyA, Foam::fvc::laplacian(), nNonOrthCorr, p_rgh, phi, phig(), phiHbyA, pRefCell, pRefValue, rAU(), Foam::fvc::reconstruct(), rhorAUf(), and U.
| if | ( | closedVolume && | compressible | ) |
Definition at line 80 of file pEqn.H.
References compressibility, Foam::fvc::domainIntegrate(), gh, initialMass, p, p_rgh, and rho.
Definition at line 3 of file pEqn.H.
Referenced by Foam::fvc::absolute(), MRFZoneList::addAcceleration(), actuationDiskSource::addActuationDiskAxialInertialResistance(), MRFZone::addCoriolis(), radialActuationDiskSource::addRadialActuationDiskAxialInertialResistance(), porosityModelList::addResistance(), porosityModel::addResistance(), buoyancyForce::addSup(), buoyancyEnergy::addSup(), tabulatedAccelerationSource::addSup(), canopySource::addSup(), interRegionExplicitPorositySource::addSup(), radialActuationDiskSource::addSup(), CodedSource< Type >::addSup(), actuationDiskSource::addSup(), svenssonHaggkvistCanopySource::addSup(), dalpeMassonCanopySource::addSup(), option::addSup(), solidificationMeltingSource::addSup(), rotorDiskSource::addSup(), fixedCoeff::apply(), powerLaw::apply(), DarcyForchheimer::apply(), solidificationMeltingSource::apply(), CoBlended< Type >::blendingFactor(), cellCoBlended< Type >::blendingFactor(), Implicit< CloudType >::cacheFields(), SprayParcel::calc(), SprayParcel::calcAtomization(), targetCoeffTrim::calcCoeffs(), powerLaw::calcForce(), DarcyForchheimer::calcForce(), immersedBoundaryForces::calcForcesMoment(), forces::calcForcesMoment(), ThermoParcel::calcHeatTransfer(), pyrolysisChemistryModel< CompType, SolidThermo, GasThermo >::calculate(), chemistryModel< CompType, ThermoType >::calculate(), rotorDiskSource::calculate(), chemistryModel< CompType, ThermoType >::calculateRR(), coalCloudList::coalCloudList(), CoEulerDdtScheme< Type >::CofrDeltaT(), Foam::compressibleCourantNo(), pressureTools::convertToCoeff(), Foam::MULES::correct(), patchInjection::correct(), infinitelyFastChemistry< CombThermoType, ThermoType >::correct(), PaSR< Type >::correct(), drippingInjection::correct(), curvatureSeparation::correct(), fixedCoeff::correct(), kOmegaSSTDES< BasicTurbulenceModel >::correct(), powerLaw::correct(), DeardorffDiffStress< BasicTurbulenceModel >::correct(), dynamicLagrangian< BasicTurbulenceModel >::correct(), kEqn< BasicTurbulenceModel >::correct(), DarcyForchheimer::correct(), targetCoeffTrim::correct(), dynamicKEqn< BasicTurbulenceModel >::correct(), SSG< BasicTurbulenceModel >::correct(), SpalartAllmaras< BasicTurbulenceModel >::correct(), kEpsilon< EddyDiffusivity< compressible::turbulenceModel > >::correct(), kOmega< BasicTurbulenceModel >::correct(), realizableKE< BasicTurbulenceModel >::correct(), RNGkEpsilon< BasicTurbulenceModel >::correct(), LaunderSharmaKE< BasicTurbulenceModel >::correct(), LRR< BasicTurbulenceModel >::correct(), directionalPressureGradientExplicitSource::correct(), SpalartAllmarasDES< BasicTurbulenceModel >::correct(), v2f< BasicTurbulenceModel >::correct(), kOmegaSSTBase< eddyViscosity< RASModel< BasicTurbulenceModel > > >::correct(), standardPhaseChange::correctModel(), Foam::CorrectPhi(), targetCoeffTrim::correctTrim(), Foam::correctUphiBCs(), Foam::fvc::d2dt2(), Foam::fvm::d2dt2(), Foam::fvm::ddt(), Foam::fvc::ddt(), MRFZoneList::DDt(), Foam::fvc::ddtCorr(), chemistryModel< CompType, ThermoType >::derivatives(), wallShearStressWriter::devRhoReff(), forces::devRhoReff(), linearViscousStress< RASModel< BasicTurbulenceModel > >::divDevRhoReff(), nonlinearEddyViscosity< incompressible::RASModel >::divDevRhoReff(), ReynoldsStress< RASModel< BasicTurbulenceModel > >::divDevRhoReff(), ThermoSurfaceFilm< CloudType >::drySplashInteraction(), thermo< Thermo, Type >::ea(), LaheyKEpsilon< BasicTurbulenceModel >::epsilonSource(), thermo< Thermo, Type >::es(), scalarTransport::execute(), Foam::MULES::explicitSolve(), PatchFlowRateInjection< CloudType >::flowRate(), for(), forAll(), forAllConstIter(), steadyStateD2dt2Scheme< Type >::fvcD2dt2(), EulerD2dt2Scheme< Type >::fvcD2dt2(), steadyStateDdtScheme< Type >::fvcDdt(), EulerDdtScheme< Type >::fvcDdt(), boundedDdtScheme< Type >::fvcDdt(), backwardDdtScheme< Type >::fvcDdt(), CoEulerDdtScheme< Type >::fvcDdt(), SLTSDdtScheme< Type >::fvcDdt(), localEulerDdtScheme< Type >::fvcDdt(), CrankNicolsonDdtScheme< Type >::fvcDdt(), steadyStateDdtScheme< Type >::fvcDdtPhiCorr(), EulerDdtScheme< Type >::fvcDdtPhiCorr(), boundedDdtScheme< Type >::fvcDdtPhiCorr(), backwardDdtScheme< Type >::fvcDdtPhiCorr(), CoEulerDdtScheme< Type >::fvcDdtPhiCorr(), SLTSDdtScheme< Type >::fvcDdtPhiCorr(), localEulerDdtScheme< Type >::fvcDdtPhiCorr(), CrankNicolsonDdtScheme< Type >::fvcDdtPhiCorr(), steadyStateDdtScheme< Type >::fvcDdtUfCorr(), EulerDdtScheme< Type >::fvcDdtUfCorr(), boundedDdtScheme< Type >::fvcDdtUfCorr(), backwardDdtScheme< Type >::fvcDdtUfCorr(), CoEulerDdtScheme< Type >::fvcDdtUfCorr(), SLTSDdtScheme< Type >::fvcDdtUfCorr(), localEulerDdtScheme< Type >::fvcDdtUfCorr(), CrankNicolsonDdtScheme< Type >::fvcDdtUfCorr(), steadyStateD2dt2Scheme< Type >::fvmD2dt2(), EulerD2dt2Scheme< Type >::fvmD2dt2(), steadyStateDdtScheme< Type >::fvmDdt(), EulerDdtScheme< Type >::fvmDdt(), boundedDdtScheme< Type >::fvmDdt(), backwardDdtScheme< Type >::fvmDdt(), CoEulerDdtScheme< Type >::fvmDdt(), SLTSDdtScheme< Type >::fvmDdt(), localEulerDdtScheme< Type >::fvmDdt(), ddtScheme< Type >::fvmDdt(), CrankNicolsonDdtScheme< Type >::fvmDdt(), if(), Foam::MULES::implicitSolve(), Foam::MULES::interpolate(), NicenoKEqn< BasicTurbulenceModel >::kSource(), LaheyKEpsilon< BasicTurbulenceModel >::kSource(), Foam::MULES::limit(), Foam::MULES::limitCorr(), Foam::MULES::limiter(), PhiScheme< Type, PhiLimiter >::limiter(), Foam::MULES::limiterCorr(), Foam::fvc::makeAbsolute(), MRFZoneList::makeAbsolute(), MRFZone::makeAbsolute(), MRFZone::makeAbsoluteRhoFlux(), Foam::fvc::makeRelative(), MRFZoneList::makeRelative(), MRFZone::makeRelative(), MRFZone::makeRelativeRhoFlux(), Foam::fvc::meshPhi(), layeredEngineMesh::move(), fvMotionSolverEngineMesh::move(), solidParticleCloud::move(), forces::mu(), Foam::compressible::New(), ThermalDiffusivity< BasicTurbulenceModel >::New(), laminar< BasicTurbulenceModel >::New(), CompressibleTurbulenceModel< TransportModel >::New(), PhaseCompressibleTurbulenceModel< typename BasicTurbulenceModel::transportModel >::New(), RASModel< EddyDiffusivity< phaseCompressibleTurbulenceModel > >::New(), LESModel< BasicTurbulenceModel >::New(), fluidThermo::nu(), continuousGasKEpsilon< BasicTurbulenceModel >::nuEff(), optionList::operator()(), rhoMagSqr< Type >::operator()(), pressureTools::pDyn(), continuousGasKEqn< BasicTurbulenceModel >::phaseTransferCoeff(), continuousGasKEpsilon< BasicTurbulenceModel >::phaseTransferCoeff(), NicenoKEqn< BasicTurbulenceModel >::phaseTransferCoeff(), LaheyKEpsilon< BasicTurbulenceModel >::phaseTransferCoeff(), KinematicParcel::readFields(), Foam::fvc::relative(), liquidMixtureProperties::rho(), InjectionModel< CloudType >::setNumberOfParticles(), ConeNozzleInjection< CloudType >::setProperties(), SLTSDdtScheme< Type >::SLrDeltaT(), pyrolysisChemistryModel< CompType, SolidThermo, GasThermo >::solve(), chemistryModel< CompType, ThermoType >::solve(), SprayParcel::solveTABEq(), coalCloudList::Srho(), ReactingCloud< CloudType >::Srho(), exponential::tau(), Lun::tau(), ParticleStressModel::tau(), chemistryModel< CompType, ThermoType >::tc(), ReitzKHRT< CloudType >::update(), BlobsSheetAtomization< CloudType >::update(), ReitzDiwakar< CloudType >::update(), ETAB< CloudType >::update(), PilchErdman< CloudType >::update(), TAB< CloudType >::update(), LISAAtomization< CloudType >::update(), SHF< CloudType >::update(), inclinedFilmNusseltHeightFvPatchScalarField::updateCoeffs(), inclinedFilmNusseltInletVelocityFvPatchVectorField::updateCoeffs(), alphaFixedPressureFvPatchScalarField::updateCoeffs(), wallHeatTransferFvPatchScalarField::updateCoeffs(), turbulentHeatFluxTemperatureFvPatchScalarField::updateCoeffs(), uniformTotalPressureFvPatchScalarField::updateCoeffs(), totalPressureFvPatchScalarField::updateCoeffs(), ThermoSurfaceFilm< CloudType >::wetSplashInteraction(), while(), CloudToVTK< CloudType >::write(), and KinematicParcel::writeFields().
| dimensionedScalar compressibility = fvc::domainIntegrate(psi) |
| bool compressible = (compressibility.value() > SMALL) |
Definition at line 40 of file pEqn.H.
Referenced by turbulenceFields::execute(), for(), and if().
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