FreeFOAM The Cross-Platform CFD Toolkit
BasicReactingParcel< ThermoType > Member List

This is the complete list of members for BasicReactingParcel< ThermoType >, including all inherited members.

active() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
active()KinematicParcel< BasicReactingParcel< ThermoType > >inline
active_KinematicParcel< BasicReactingParcel< ThermoType > >protected
areaP() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
areaP(const scalar d) constKinematicParcel< BasicReactingParcel< ThermoType > >inline
areaS() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
areaS(const scalar d) constKinematicParcel< BasicReactingParcel< ThermoType > >inline
BasicReactingParcel(ReactingCloud< BasicReactingParcel > &owner, const vector &position, const label cellI)BasicReactingParcel< ThermoType >
BasicReactingParcel(ReactingCloud< BasicReactingParcel > &owner, const vector &position, const label cellI, const label typeId, const scalar nParticle0, const scalar d0, const vector &U0, const scalarField &Y0, const typename ReactingParcel< BasicReactingParcel >::constantProperties &constProps)BasicReactingParcel< ThermoType >
BasicReactingParcel(const Cloud< BasicReactingParcel > &c, Istream &is, bool readFields=true)BasicReactingParcel< ThermoType >
BasicReactingParcel(const BasicReactingParcel &p)BasicReactingParcel< ThermoType >
calc(TrackData &td, const scalar dt, const label cellI)ReactingParcel< BasicReactingParcel< ThermoType > >
calcHeatTransfer(TrackData &td, const scalar dt, const label cellI, const scalar Re, const scalar Pr, const scalar kappa, const scalar d, const scalar rho, const scalar T, const scalar cp, const scalar NCpW, const scalar Sh, scalar &dhsTrans)ThermoParcel< BasicReactingParcel< ThermoType > >protected
calcPhaseChange(TrackData &td, const scalar dt, const label cellI, const scalar Re, const scalar Ts, const scalar nus, const scalar d, const scalar T, const scalar mass, const label idPhase, const scalar YPhase, const scalarField &YComponents, scalarField &dMassPC, scalar &Sh, scalar &N, scalar &NCpW, scalarField &Cs)ReactingParcel< BasicReactingParcel< ThermoType > >protected
calcSurfaceValues(TrackData &td, const label cellI, const scalar T, scalar &Ts, scalar &rhos, scalar &mus, scalar &Pr, scalar &kappa) constThermoParcel< BasicReactingParcel< ThermoType > >
calcVelocity(TrackData &td, const scalar dt, const label cellI, const scalar Re, const scalar mu, const scalar d, const vector &U, const scalar rho, const scalar mass, const vector &Su, vector &dUTrans) constKinematicParcel< BasicReactingParcel< ThermoType > >protected
cell()Particle< BasicReactingParcel< ThermoType > >inline
cell() constParticle< BasicReactingParcel< ThermoType > >inline
celli_Particle< BasicReactingParcel< ThermoType > >protected
cellValueSourceCorrection(TrackData &td, const scalar dt, const label cellI)ReactingParcel< BasicReactingParcel< ThermoType > >
clone() const BasicReactingParcel< ThermoType >inline
cloud() constParticle< BasicReactingParcel< ThermoType > >inline
cloud_Particle< BasicReactingParcel< ThermoType > >protected
correctAfterParallelTransfer(const label patchi, TrackData &td)Particle< BasicReactingParcel< ThermoType > >protected
correctSurfaceValues(TrackData &td, const label cellI, const scalar T, const scalarField &Cs, scalar &rhos, scalar &mus, scalar &Pr, scalar &kappa)ReactingParcel< BasicReactingParcel< ThermoType > >
cp() constThermoParcel< BasicReactingParcel< ThermoType > >inline
cp()ThermoParcel< BasicReactingParcel< ThermoType > >inline
cp_ThermoParcel< BasicReactingParcel< ThermoType > >protected
cpc_ThermoParcel< BasicReactingParcel< ThermoType > >protected
currentTime() constParticle< BasicReactingParcel< ThermoType > >inline
d() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
d()KinematicParcel< BasicReactingParcel< ThermoType > >inline
d_KinematicParcel< BasicReactingParcel< ThermoType > >protected
face() constParticle< BasicReactingParcel< ThermoType > >inline
facei_Particle< BasicReactingParcel< ThermoType > >protected
faceInterpolation() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
findFaces(const vector &position, DynamicList< label > &faceList) constParticle< BasicReactingParcel< ThermoType > >protected
findFaces(const vector &position, const label celli, const scalar stepFraction, DynamicList< label > &faceList) constParticle< BasicReactingParcel< ThermoType > >protected
hitCyclicPatch(const cyclicPolyPatch &, TrackData &td)Particle< BasicReactingParcel< ThermoType > >protected
hitPatch(const polyPatch &p, TrackData &td, const label patchI)KinematicParcel< BasicReactingParcel< ThermoType > >
hitPatch(const polyPatch &p, int &td, const label patchI)KinematicParcel< BasicReactingParcel< ThermoType > >
hitPatch(const polyPatch &, TrackData &td)KinematicParcel< BasicReactingParcel< ThermoType > >
hitPatch(const polyPatch &, int &)KinematicParcel< BasicReactingParcel< ThermoType > >
hitProcessorPatch(const processorPolyPatch &, TrackData &td)KinematicParcel< BasicReactingParcel< ThermoType > >
hitProcessorPatch(const processorPolyPatch &, int &)KinematicParcel< BasicReactingParcel< ThermoType > >
hitSymmetryPatch(const symmetryPolyPatch &, TrackData &td)Particle< BasicReactingParcel< ThermoType > >protected
hitWallPatch(const wallPolyPatch &, TrackData &td)KinematicParcel< BasicReactingParcel< ThermoType > >
hitWallPatch(const wallPolyPatch &, int &)KinematicParcel< BasicReactingParcel< ThermoType > >
hitWedgePatch(const wedgePolyPatch &, TrackData &td)Particle< BasicReactingParcel< ThermoType > >protected
inCell() constParticle< BasicReactingParcel< ThermoType > >inline
inCell(const vector &position, const label celli, const scalar stepFraction) constParticle< BasicReactingParcel< ThermoType > >inline
KinematicParcel(KinematicCloud< BasicReactingParcel< ThermoType > > &owner, const vector &position, const label cellI)KinematicParcel< BasicReactingParcel< ThermoType > >inline
KinematicParcel(KinematicCloud< BasicReactingParcel< ThermoType > > &owner, const vector &position, const label cellI, const label typeId, const scalar nParticle0, const scalar d0, const vector &U0, const constantProperties &constProps)KinematicParcel< BasicReactingParcel< ThermoType > >inline
KinematicParcel(const Cloud< BasicReactingParcel< ThermoType > > &c, Istream &is, bool readFields=true)KinematicParcel< BasicReactingParcel< ThermoType > >
KinematicParcel(const KinematicParcel &p)KinematicParcel< BasicReactingParcel< ThermoType > >
lambda(const vector &from, const vector &to, const label facei, const scalar stepFraction) constParticle< BasicReactingParcel< ThermoType > >inlineprotected
lambda(const vector &from, const vector &to, const label facei) constParticle< BasicReactingParcel< ThermoType > >inlineprotected
mass() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
mass0() constReactingParcel< BasicReactingParcel< ThermoType > >inline
mass0()ReactingParcel< BasicReactingParcel< ThermoType > >inline
mass0_ReactingParcel< BasicReactingParcel< ThermoType > >protected
massCell(const label cellI) constKinematicParcel< BasicReactingParcel< ThermoType > >inline
move(TrackData &td)KinematicParcel< BasicReactingParcel< ThermoType > >
muc_KinematicParcel< BasicReactingParcel< ThermoType > >protected
nParticle() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
nParticle()KinematicParcel< BasicReactingParcel< ThermoType > >inline
nParticle_KinematicParcel< BasicReactingParcel< ThermoType > >protected
onBoundary() constParticle< BasicReactingParcel< ThermoType > >inline
origId() constParticle< BasicReactingParcel< ThermoType > >inline
origId_Particle< BasicReactingParcel< ThermoType > >protected
origProc() constParticle< BasicReactingParcel< ThermoType > >inline
origProc_Particle< BasicReactingParcel< ThermoType > >protected
Particle(const Cloud< BasicReactingParcel< ThermoType > > &, const vector &position, const label celli)Particle< BasicReactingParcel< ThermoType > >
Particle(const Cloud< BasicReactingParcel< ThermoType > > &, Istream &, bool readFields=true)Particle< BasicReactingParcel< ThermoType > >
Particle(const Particle &p)Particle< BasicReactingParcel< ThermoType > >
patch(const label facei) constParticle< BasicReactingParcel< ThermoType > >inline
patchFace(const label patchi, const label facei) constParticle< BasicReactingParcel< ThermoType > >inline
pc() constReactingParcel< BasicReactingParcel< ThermoType > >inline
pc_ReactingParcel< BasicReactingParcel< ThermoType > >protected
position() constParticle< BasicReactingParcel< ThermoType > >inline
position()Particle< BasicReactingParcel< ThermoType > >inline
position_Particle< BasicReactingParcel< ThermoType > >protected
prepareForParallelTransfer(const label patchi, TrackData &td)Particle< BasicReactingParcel< ThermoType > >protected
propHeaderReactingParcel< BasicReactingParcel< ThermoType > >static
Re(const vector &U, const scalar d, const scalar rhoc, const scalar muc) constKinematicParcel< BasicReactingParcel< ThermoType > >inline
reactingParcel()reactingParcel
ReactingParcel(ReactingCloud< BasicReactingParcel< ThermoType > > &owner, const vector &position, const label cellI)ReactingParcel< BasicReactingParcel< ThermoType > >inline
ReactingParcel(ReactingCloud< BasicReactingParcel< ThermoType > > &owner, const vector &position, const label cellI, const label typeId, const scalar nParticle0, const scalar d0, const vector &U0, const scalarField &Y0, const constantProperties &constProps)ReactingParcel< BasicReactingParcel< ThermoType > >inline
ReactingParcel(const Cloud< BasicReactingParcel< ThermoType > > &c, Istream &is, bool readFields=true)ReactingParcel< BasicReactingParcel< ThermoType > >
ReactingParcel(const ReactingParcel &p)ReactingParcel< BasicReactingParcel< ThermoType > >
readFields(Cloud< BasicReactingParcel< ThermoType > > &c)ReactingParcel< BasicReactingParcel< ThermoType > >static
rho() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
rho()KinematicParcel< BasicReactingParcel< ThermoType > >inline
rho_KinematicParcel< BasicReactingParcel< ThermoType > >protected
rhoc_KinematicParcel< BasicReactingParcel< ThermoType > >protected
setCellValues(TrackData &td, const scalar dt, const label cellI)ReactingParcel< BasicReactingParcel< ThermoType > >
softImpact() constParticle< BasicReactingParcel< ThermoType > >inline
stepFraction()Particle< BasicReactingParcel< ThermoType > >inline
stepFraction() constParticle< BasicReactingParcel< ThermoType > >inline
stepFraction_Particle< BasicReactingParcel< ThermoType > >protected
T() constThermoParcel< BasicReactingParcel< ThermoType > >inline
T()ThermoParcel< BasicReactingParcel< ThermoType > >inline
T_ThermoParcel< BasicReactingParcel< ThermoType > >protected
Tc_ThermoParcel< BasicReactingParcel< ThermoType > >protected
ThermoParcel(ThermoCloud< BasicReactingParcel< ThermoType > > &owner, const vector &position, const label cellI)ThermoParcel< BasicReactingParcel< ThermoType > >inline
ThermoParcel(ThermoCloud< BasicReactingParcel< ThermoType > > &owner, const vector &position, const label cellI, const label typeId, const scalar nParticle0, const scalar d0, const vector &U0, const constantProperties &constProps)ThermoParcel< BasicReactingParcel< ThermoType > >inline
ThermoParcel(const Cloud< BasicReactingParcel< ThermoType > > &c, Istream &is, bool readFields=true)ThermoParcel< BasicReactingParcel< ThermoType > >
ThermoParcel(const ThermoParcel &p)ThermoParcel< BasicReactingParcel< ThermoType > >
thermoType typedefBasicReactingParcel< ThermoType >
track(const vector &endPosition, TrackData &td)Particle< BasicReactingParcel< ThermoType > >
track(const vector &endPosition)Particle< BasicReactingParcel< ThermoType > >
trackToFace(const vector &endPosition, TrackData &td)Particle< BasicReactingParcel< ThermoType > >
trackToFace(const vector &endPosition)Particle< BasicReactingParcel< ThermoType > >
transformPosition(const tensor &T)Particle< BasicReactingParcel< ThermoType > >protectedvirtual
transformProperties(const tensor &T)KinematicParcel< BasicReactingParcel< ThermoType > >virtual
transformProperties(const vector &separation)KinematicParcel< BasicReactingParcel< ThermoType > >virtual
tTurb() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
tTurb()KinematicParcel< BasicReactingParcel< ThermoType > >inline
tTurb_KinematicParcel< BasicReactingParcel< ThermoType > >protected
typeId() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
typeId()KinematicParcel< BasicReactingParcel< ThermoType > >inline
typeId_KinematicParcel< BasicReactingParcel< ThermoType > >protected
TypeName("BasicReactingParcel")BasicReactingParcel< ThermoType >
ReactingParcel< BasicReactingParcel< ThermoType > >::TypeName("ReactingParcel")ReactingParcel< BasicReactingParcel< ThermoType > >
ReactingParcel< BasicReactingParcel< ThermoType > >::Foam::reactingParcel::TypeName("reactingParcel")reactingParcel
ThermoParcel< BasicReactingParcel< ThermoType > >::TypeName("ThermoParcel")ThermoParcel< BasicReactingParcel< ThermoType > >
KinematicParcel< BasicReactingParcel< ThermoType > >::TypeName("KinematicParcel")KinematicParcel< BasicReactingParcel< ThermoType > >
Particle< BasicReactingParcel< ThermoType > >::TypeName("Particle")Particle< BasicReactingParcel< ThermoType > >
U() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
U()KinematicParcel< BasicReactingParcel< ThermoType > >inline
U_KinematicParcel< BasicReactingParcel< ThermoType > >protected
Uc_KinematicParcel< BasicReactingParcel< ThermoType > >protected
updateMassFraction(const scalar mass0, const scalarField &dMass, scalarField &Y) constReactingParcel< BasicReactingParcel< ThermoType > >protected
UTurb() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
UTurb()KinematicParcel< BasicReactingParcel< ThermoType > >inline
UTurb_KinematicParcel< BasicReactingParcel< ThermoType > >protected
volume() constKinematicParcel< BasicReactingParcel< ThermoType > >inline
volume(const scalar d) constKinematicParcel< BasicReactingParcel< ThermoType > >inline
wallImpactDistance(const vector &n) constKinematicParcel< BasicReactingParcel< ThermoType > >inline
write(Ostream &os, bool writeFields) constParticle< BasicReactingParcel< ThermoType > >
writeFields(const Cloud< BasicReactingParcel< ThermoType > > &c)ReactingParcel< BasicReactingParcel< ThermoType > >static
Y() constReactingParcel< BasicReactingParcel< ThermoType > >inline
Y()ReactingParcel< BasicReactingParcel< ThermoType > >inline
Y_ReactingParcel< BasicReactingParcel< ThermoType > >protected
~BasicReactingParcel()BasicReactingParcel< ThermoType >virtual
~Particle()Particle< BasicReactingParcel< ThermoType > >inlinevirtual
~reactingParcel()reactingParcelvirtual