setRegionFluidFields.H File Reference

Go to the source code of this file.

Functions
thermo	validate (args.executable(), "h", "e")
	if (Y.size())
const dimensionedScalar	initialMass ("initialMass", dimMass, initialMassFluid[i])

Variables
CombustionModel< rhoReactionThermo > &	reaction = reactionFluid[i]
rhoReactionThermo &	thermo = reaction.thermo()
basicMultiComponentMixture &	composition = thermo.composition()
PtrList< volScalarField > &	Y = composition.Y()
label	inertIndex = -1
volScalarField &	rho = rhoFluid[i]
volVectorField &	U = UFluid[i]
surfaceScalarField &	phi = phiFluid[i]
compressible::turbulenceModel &	turbulence = turbulenceFluid[i]
volScalarField &	K = KFluid[i]
volScalarField &	dpdt = dpdtFluid[i]
volScalarField &	p = thermo.p()
const volScalarField &	psi = thermo.psi()
volScalarField &	p_rgh = p_rghFluid[i]
const volScalarField &	gh = ghFluid[i]
const surfaceScalarField &	ghf = ghfFluid[i]
multivariateSurfaceInterpolationScheme< scalar >::fieldTable &	fields
volScalarField &	Qdot = QdotFluid[i]
radiation::radiationModel &	rad = radiation[i]
IOMRFZoneList &	MRF = MRFfluid[i]
fv::options &	fvOptions = fluidFvOptions[i]
fvVectorMatrix &	UEqn = UEqFluid[i]
bool	frozenFlow = frozenFlowFluid[i]
const label	pRefCell = pRefCellFluid[i]
const scalar	pRefValue = pRefValueFluid[i]
const dimensionedScalar	rhoMax = rhoMaxFluid[i]
const dimensionedScalar	rhoMin = rhoMinFluid[i]
const pressureControl &	pressureControl = pressureControls[i]

Function Documentation

validate()

thermo validate	(	args.	executable(),
		"h"	,
		"e"	)

References args.

if()

if

(

Y.

size()

)

Definition at line 10 of file setRegionFluidFields.H.

References args, composition, FatalIOErrorIn, inertIndex, inertSpecie(), and Y.

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initialMass()

const dimensionedScalar initialMass	(	"initialMass"	,
		dimMass	,
		initialMassFluid	[i] )

References initialMassFluid().

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Variable Documentation

reaction

CombustionModel<rhoReactionThermo>& reaction = reactionFluid[i]

Definition at line 1 of file setRegionFluidFields.H.

Referenced by singleStepReactingMixture< ThermoType >::calculateMaxProducts(), singleStepReactingMixture< ThermoType >::calculateqFuel(), field(), forAll(), singleStepReactingMixture< ThermoType >::fresCorrect(), IrreversibleReaction< ReactionType, ReactionThermo, ReactionRate >::IrreversibleReaction(), IrreversibleReaction< solidReaction, hConstSolidThermoPhysics, solidArrheniusReactionRate >::IrreversibleReaction(), mixtureFractionSoot< ThermoType >::mixtureFractionSoot(), mvConvection(), NonEquilibriumReversibleReaction< ReactionType, ReactionThermo, ReactionRate >::NonEquilibriumReversibleReaction(), NonEquilibriumReversibleReaction< Reaction, constGasHThermoPhysics, ArrheniusReactionRate >::NonEquilibriumReversibleReaction(), solidReaction< ReactionThermo >::operator<<, Reaction< ReactionThermo >::reactionStr(), Reaction< hConstSolidThermoPhysics >::reactionStr(), Reaction< ReactionThermo >::reactionStrLeft(), Reaction< hConstSolidThermoPhysics >::reactionStrLeft(), Reaction< ReactionThermo >::reactionStrRight(), Reaction< hConstSolidThermoPhysics >::reactionStrRight(), ReversibleReaction< ReactionType, ReactionThermo, ReactionRate >::ReversibleReaction(), ReversibleReaction< Reaction, gasHThermoPhysics, LangmuirHinshelwoodReactionRate >::ReversibleReaction(), solidReaction< ReactionThermo >::solidReaction(), solidReaction< hConstSolidThermoPhysics >::solidReaction(), Reaction< ReactionThermo >::write(), and solidReaction< ReactionThermo >::write().

thermo

rhoReactionThermo& thermo = reaction.thermo()

Definition at line 3 of file setRegionFluidFields.H.

composition

basicMultiComponentMixture& composition = thermo.composition()

Definition at line 6 of file setRegionFluidFields.H.

Y

PtrList<volScalarField>& Y = composition.Y()

Definition at line 7 of file setRegionFluidFields.H.

inertIndex

label inertIndex = -1

Definition at line 9 of file setRegionFluidFields.H.

Referenced by clamp_min(), forAll(), and if().

rho

volScalarField& rho = rhoFluid[i]

Definition at line 24 of file setRegionFluidFields.H.

U

volVectorField& U = UFluid[i]

Definition at line 25 of file setRegionFluidFields.H.

phi

surfaceScalarField& phi = phiFluid[i]

Definition at line 26 of file setRegionFluidFields.H.

turbulence

compressible::turbulenceModel& turbulence = turbulenceFluid[i]

Definition at line 28 of file setRegionFluidFields.H.

Referenced by alphaEff(), Db(), EaEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), for(), forAll(), forAll(), if(), if(), if(), if(), kappaEff(), makeGraph(), R(), relax(), tUEqn(), tUEqn(), tUEqn(), tUEqn(), tUEqn(), tUEqn(), tUrelEqn(), tUrelEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), UEqn(), and UEqn().

K

volScalarField& K = KFluid[i]

Definition at line 29 of file setRegionFluidFields.H.

dpdt

volScalarField& dpdt = dpdtFluid[i]

Definition at line 30 of file setRegionFluidFields.H.

Referenced by E1Eqn(), E2Eqn(), EaEqn(), EaEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), EEqn(), Curle::execute(), AnisothermalPhaseModel< BasePhaseModel >::heEqn(), if(), if(), if(), and if().

p

volScalarField& p = thermo.p()

Definition at line 32 of file setRegionFluidFields.H.

psi

const volScalarField& psi = thermo.psi()

Definition at line 33 of file setRegionFluidFields.H.

p_rgh

volScalarField& p_rgh = p_rghFluid[i]

Definition at line 35 of file setRegionFluidFields.H.

gh

const volScalarField& gh = ghFluid[i]

Definition at line 37 of file setRegionFluidFields.H.

ghf

const surfaceScalarField& ghf = ghfFluid[i]

Definition at line 38 of file setRegionFluidFields.H.

fields

multivariateSurfaceInterpolationScheme<scalar>::fieldTable& fields

Initial value:

                                                       =
fieldsFluid[i]

Definition at line 40 of file setRegionFluidFields.H.

Qdot

volScalarField& Qdot = QdotFluid[i]

Definition at line 43 of file setRegionFluidFields.H.

rad

radiation::radiationModel& rad = radiation[i]

Definition at line 45 of file setRegionFluidFields.H.

MRF

IOMRFZoneList& MRF = MRFfluid[i]

Definition at line 47 of file setRegionFluidFields.H.

fvOptions

fv::options& fvOptions = fluidFvOptions[i]

Definition at line 48 of file setRegionFluidFields.H.

UEqn

fvVectorMatrix& UEqn = UEqFluid[i]

Definition at line 50 of file setRegionFluidFields.H.

frozenFlow

bool frozenFlow = frozenFlowFluid[i]

Definition at line 59 of file setRegionFluidFields.H.

pRefCell

const label pRefCell = pRefCellFluid[i]

Definition at line 61 of file setRegionFluidFields.H.

pRefValue

const scalar pRefValue = pRefValueFluid[i]

Definition at line 62 of file setRegionFluidFields.H.

rhoMax

const dimensionedScalar rhoMax = rhoMaxFluid[i]

Definition at line 64 of file setRegionFluidFields.H.

Referenced by clamp_range(), clamp_range(), correctRho(), fluidThermo::correctRho(), psiThermo::correctRho(), rhoThermo::correctRho(), psiThermo::declareRunTimeSelectionTable(), rhoThermo::declareRunTimeSelectionTable(), forAll(), if(), if(), PairSpringSliderDashpot< CloudType >::nSubCycles(), WallLocalSpringSliderDashpot< CloudType >::nSubCycles(), and WallSpringSliderDashpot< CloudType >::nSubCycles().

rhoMin

const dimensionedScalar rhoMin = rhoMinFluid[i]

Definition at line 65 of file setRegionFluidFields.H.

Referenced by clamp_range(), clamp_range(), SprayParcel< ParcelType >::constantProperties::constantProperties(), correctRho(), fluidThermo::correctRho(), psiThermo::correctRho(), rhoThermo::correctRho(), psiThermo::declareRunTimeSelectionTable(), rhoThermo::declareRunTimeSelectionTable(), forAll(), if(), and if().

pressureControl

const pressureControl& pressureControl = pressureControls[i]

Definition at line 67 of file setRegionFluidFields.H.

Referenced by forAll(), if(), if(), Info<< "Reading field U\n"<< endl;volVectorField U(IOobject("U", runTime.timeName(), mesh, IOobject::MUST_READ, IOobject::AUTO_WRITE), mesh);pressureControl pressureControl(p, rho, pimple.dict(), false);const dimensionedScalar rhoMax("rhoMax", dimDensity, GREAT, pimple.dict());const dimensionedScalar rhoMin("rhoMin", dimDensity, Zero, pimple.dict());mesh.setFluxRequired(p.name());{ wordHashSet &nonInt=const_cast< wordHashSet & >(), limit(), pressureControl(), rho(), rho(), and while().