This is the complete list of members for ReactingMultiphaseCloud< CloudType >, including all inherited members.

addNewParcel(const vector &position, const label celli, const vector &U, const scalar Ei, const label typeId)	DSMCCloud< ParcelType >
addParticle(ParticleType *pPtr)	Cloud< ParticleType >
autoMap(const mapPolyMesh &)	ReactingMultiphaseCloud< CloudType >	virtual
binaryCollision() const	DSMCCloud< ParcelType >	inline
binaryCollision()	DSMCCloud< ParcelType >	inline
boundaryT() const	DSMCCloud< ParcelType >	inline
boundaryU() const	DSMCCloud< ParcelType >	inline
cellOccupancy() const	DSMCCloud< ParcelType >	inline
checkFieldFieldIOobject(const Cloud< ParticleType > &c, const CompactIOField< Field< DataType >, DataType > &data) const	Cloud< ParticleType >
checkFieldIOobject(const Cloud< ParticleType > &c, const IOField< DataType > &data) const	Cloud< ParticleType >
checkParcelProperties(parcelType &parcel, const scalar lagrangianDt, const bool fullyDescribed)	ReactingMultiphaseCloud< CloudType >
clear()	DSMCCloud< ParcelType >	inline
clone(const word &name)	ReactingMultiphaseCloud< CloudType >	inlinevirtual
cloneBare(const word &name) const	ReactingMultiphaseCloud< CloudType >	inlinevirtual
Cloud(const polyMesh &mesh, const word &cloudName, const IDLList< ParticleType > &particles)	Cloud< ParticleType >
Cloud(const polyMesh &pMesh, const word &cloudName, const bool checkClass=true)	Cloud< ParticleType >
cloudCopy() const	ReactingMultiphaseCloud< CloudType >	inline
cloudName() const	DSMCCloud< ParcelType >	inline
cloudPropertiesName	Cloud< ParticleType >	static
cloudReset(ReactingMultiphaseCloud< CloudType > &c)	ReactingMultiphaseCloud< CloudType >	protected
Foam::DSMCCloud::cloudReset(const Cloud< ParticleType > &c)	Cloud< ParticleType >
cloudType typedef	ReactingMultiphaseCloud< CloudType >
collisionSelectionRemainder()	DSMCCloud< ParcelType >	inline
constProps() const	ReactingMultiphaseCloud< CloudType >	inline
constProps()	ReactingMultiphaseCloud< CloudType >	inline
Foam::DSMCCloud::constProps(label typeId) const	DSMCCloud< ParcelType >	inline
constProps_	ReactingMultiphaseCloud< CloudType >	protected
deleteLostParticles()	Cloud< ParticleType >
deleteParticle(ParticleType &p)	Cloud< ParticleType >
devolatilisation() const	ReactingMultiphaseCloud< CloudType >	inline
devolatilisation()	ReactingMultiphaseCloud< CloudType >	inline
devolatilisationModel_	ReactingMultiphaseCloud< CloudType >	protected
dMassDevolatilisation_	ReactingMultiphaseCloud< CloudType >	protected
dMassSurfaceReaction_	ReactingMultiphaseCloud< CloudType >	protected
DSMCBaseCloud()=default	DSMCBaseCloud
DSMCCloud(const word &cloudName, const fvMesh &mesh, bool readFields=true)	DSMCCloud< ParcelType >
DSMCCloud(const word &cloudName, const fvMesh &mesh, const IOdictionary &dsmcInitialiseDict)	DSMCCloud< ParcelType >
dsmcRhoN() const	DSMCCloud< ParcelType >	inline
dumpParticlePositions() const	DSMCCloud< ParcelType >
equipartitionInternalEnergy(scalar temperature, direction internalDegreesOfFreedom)	DSMCCloud< ParcelType >
equipartitionLinearVelocity(scalar temperature, scalar mass)	DSMCCloud< ParcelType >
evolve()	ReactingMultiphaseCloud< CloudType >
fD() const	DSMCCloud< ParcelType >	inline
fDBF()	DSMCCloud< ParcelType >	inline
fieldIOobject(const word &fieldName, const IOobject::readOption r) const	Cloud< ParticleType >
geometryType_	Cloud< ParticleType >	protected
iDof() const	DSMCCloud< ParcelType >	inline
iDofBF()	DSMCCloud< ParcelType >	inline
inflowBoundary() const	DSMCCloud< ParcelType >	inline
inflowBoundary()	DSMCCloud< ParcelType >	inline
info()	ReactingMultiphaseCloud< CloudType >
Foam::DSMCCloud::info() const	DSMCCloud< ParcelType >
internalE() const	DSMCCloud< ParcelType >	inline
internalEBF()	DSMCCloud< ParcelType >	inline
internalEnergyOfSystem() const	DSMCCloud< ParcelType >	inline
labels() const	Cloud< ParticleType >	inline
linearKE() const	DSMCCloud< ParcelType >	inline
linearKEBF()	DSMCCloud< ParcelType >	inline
linearKineticEnergyOfSystem() const	DSMCCloud< ParcelType >	inline
linearMomentumOfSystem() const	DSMCCloud< ParcelType >	inline
massInSystem() const	DSMCCloud< ParcelType >	inline
maxwellianAverageSpeed(scalar temperature, scalar mass) const	DSMCCloud< ParcelType >	inline
maxwellianAverageSpeed(scalarField temperature, scalar mass) const	DSMCCloud< ParcelType >	inline
maxwellianMostProbableSpeed(scalar temperature, scalar mass) const	DSMCCloud< ParcelType >	inline
maxwellianMostProbableSpeed(scalarField temperature, scalar mass) const	DSMCCloud< ParcelType >	inline
maxwellianRMSSpeed(scalar temperature, scalar mass) const	DSMCCloud< ParcelType >	inline
maxwellianRMSSpeed(scalarField temperature, scalar mass) const	DSMCCloud< ParcelType >	inline
mesh() const	DSMCCloud< ParcelType >	inline
momentum() const	DSMCCloud< ParcelType >	inline
momentumBF()	DSMCCloud< ParcelType >	inline
move(TrackCloudType &cloud, typename ParticleType::trackingData &td, const scalar trackTime)	Cloud< ParticleType >
nParcels() const	Cloud< ParticleType >	inlinevirtual
nParticle() const	DSMCCloud< ParcelType >	inline
parcelType typedef	ReactingMultiphaseCloud< CloudType >
particleProperties() const	DSMCCloud< ParcelType >	inline
particleType typedef	Cloud< ParticleType >
pMesh() const	Cloud< ParticleType >	inline
q() const	DSMCCloud< ParcelType >	inline
qBF()	DSMCCloud< ParcelType >	inline
reactingMultiphaseCloud()=default	reactingMultiphaseCloud
ReactingMultiphaseCloud(const word &cloudName, const volScalarField &rho, const volVectorField &U, const dimensionedVector &g, const SLGThermo &thermo, bool readFields=true)	ReactingMultiphaseCloud< CloudType >
ReactingMultiphaseCloud(ReactingMultiphaseCloud< CloudType > &c, const word &name)	ReactingMultiphaseCloud< CloudType >
ReactingMultiphaseCloud(const fvMesh &mesh, const word &name, const ReactingMultiphaseCloud< CloudType > &c)	ReactingMultiphaseCloud< CloudType >
reactingMultiphaseCloudType typedef	ReactingMultiphaseCloud< CloudType >
readFromFiles(objectRegistry &obr, const wordRes &selectFields) const	Cloud< ParticleType >
readStoreFile(const IOobject &io, const IOobject &ioNew) const	Cloud< ParticleType >
resetSourceTerms()	ReactingMultiphaseCloud< CloudType >
restoreState()	ReactingMultiphaseCloud< CloudType >
rhoM() const	DSMCCloud< ParcelType >	inline
rhoMBF()	DSMCCloud< ParcelType >	inline
rhoN() const	DSMCCloud< ParcelType >	inline
rhoNBF()	DSMCCloud< ParcelType >	inline
rndGen()	DSMCCloud< ParcelType >	inline
setModels()	ReactingMultiphaseCloud< CloudType >	protected
setParcelThermoProperties(parcelType &parcel, const scalar lagrangianDt)	ReactingMultiphaseCloud< CloudType >
sigmaTcRMax()	DSMCCloud< ParcelType >	inline
storeGlobalPositions() const	Cloud< ParticleType >
storeState()	ReactingMultiphaseCloud< CloudType >
surfaceReaction() const	ReactingMultiphaseCloud< CloudType >	inline
surfaceReaction()	ReactingMultiphaseCloud< CloudType >	inline
surfaceReactionModel_	ReactingMultiphaseCloud< CloudType >	protected
typeIdList() const	DSMCCloud< ParcelType >	inline
Foam::TypeName("Cloud")	Cloud< ParticleType >
Foam::DSMCBaseCloud::TypeName("DSMCBaseCloud")	DSMCBaseCloud
Foam::reactingMultiphaseCloud::TypeName("reactingMultiphaseCloud")	reactingMultiphaseCloud
wallInteraction() const	DSMCCloud< ParcelType >	inline
wallInteraction()	DSMCCloud< ParcelType >	inline
writeFields() const	ReactingMultiphaseCloud< CloudType >	virtual
writeObject(IOstreamOption streamOpt, const bool valid) const	Cloud< ParticleType >	virtual
writePositions() const	Cloud< ParticleType >
~DSMCBaseCloud()=default	DSMCBaseCloud	virtual
~DSMCCloud()	DSMCCloud< ParcelType >	virtual
~reactingMultiphaseCloud()=default	reactingMultiphaseCloud	virtual
~ReactingMultiphaseCloud()	ReactingMultiphaseCloud< CloudType >	virtual