▼ applications | |
► legacy | |
► basic | |
► financialFoam | |
createFields.H | |
financialFoam.C | Solves the Black-Scholes equation to price commodities |
► laplacianFoam | |
createFields.H | |
laplacianFoam.C | Solves a simple Laplace equation, e.g. for thermal diffusion in a solid |
write.H | |
► combustion | |
► PDRFoam | |
► derivedFvPatchFields | |
► activeBaffleVelocity | |
activeBaffleVelocityFvPatchVectorField.C | |
activeBaffleVelocityFvPatchVectorField.H | |
► activePressureForceBaffleVelocity | |
activePressureForceBaffleVelocityFvPatchVectorField.C | |
activePressureForceBaffleVelocityFvPatchVectorField.H | |
► laminarFlameSpeed | |
► SCOPE | |
SCOPELaminarFlameSpeed.C | |
SCOPELaminarFlameSpeed.H | |
► PDRModels | |
► dragModels | |
► basic | |
basic.C | |
basic.H | |
► PDRDragModel | |
PDRDragModel.C | |
PDRDragModel.H | |
PDRDragModelNew.C | |
► turbulence | |
► PDRkEpsilon | |
PDRkEpsilon.C | |
PDRkEpsilon.H | |
► XiEqModels | |
► basicXiSubXiEq | |
basicXiSubXiEq.C | |
basicXiSubXiEq.H | |
► XiGModels | |
► basicXiSubG | |
basicXiSubG.C | |
basicXiSubG.H | |
► XiModels | |
► algebraic | |
algebraic.C | |
algebraic.H | |
► fixed | |
fixed.C | |
fixed.H | |
► transport | |
transport.C | |
transport.H | |
► XiEqModels | |
► Gulder | |
Gulder.C | |
Gulder.H | |
► instabilityXiEq | |
instabilityXiEq.C | |
instabilityXiEq.H | |
► SCOPEBlendXiEq | |
SCOPEBlendXiEq.C | |
SCOPEBlendXiEq.H | |
► SCOPEXiEq | |
SCOPEXiEq.C | |
SCOPEXiEq.H | |
► XiEqModel | |
XiEqModel.C | |
XiEqModel.H | |
XiEqModelNew.C | |
► XiGModels | |
► instabilityG | |
instabilityG.C | |
instabilityG.H | |
► KTS | |
KTS.C | |
KTS.H | |
► XiGModel | |
XiGModel.C | |
XiGModel.H | |
XiGModelNew.C | |
► XiModel | |
XiModel.C | |
XiModel.H | |
XiModelNew.C | |
bEqn.H | |
createFieldRefs.H | |
createFields.H | |
EaEqn.H | |
EauEqn.H | |
ftEqn.H | |
PDRFoam.C | Solver for compressible premixed/partially-premixed combustion with turbulence modelling |
pEqn.H | |
readCombustionProperties.H | |
rhoEqn.H | Solve the continuity for density |
setDeltaT.H | Reset the timestep to maintain a constant maximum courant Number. Reduction of time-step is immediate but increase is damped to avoid unstable oscillations |
StCorr.H | |
StCourantNo.H | Calculates and outputs the mean and maximum Courant Numbers |
UEqn.H | |
► compressible | |
► rhoPorousSimpleFoam | |
createFields.H | |
createZones.H | |
EEqn.H | |
pEqn.H | |
rhoPorousSimpleFoam.C | Steady-state solver for turbulent flow of compressible fluids, with implicit or explicit porosity treatment and optional sources |
UEqn.H | |
► electromagnetics | |
► electrostaticFoam | |
createFields.H | |
electrostaticFoam.C | Solver for electrostatics |
► magneticFoam | |
createFields.H | |
magnet.H | |
magneticFoam.C | Solver for the magnetic field generated by permanent magnets |
► mhdFoam | |
createControl.H | |
createFields.H | |
createPhiB.H | |
magneticFieldErr.H | |
mhdFoam.C | Solver for magnetohydrodynamics (MHD): incompressible, laminar flow of a conducting fluid under the influence of a magnetic field |
readBPISOControls.H | |
► incompressible | |
► adjointShapeOptimisationFoam | |
► adjointOutletPressure | |
adjointOutletPressureFvPatchScalarField.C | |
adjointOutletPressureFvPatchScalarField.H | |
► adjointOutletVelocity | |
adjointOutletVelocityFvPatchVectorField.C | |
adjointOutletVelocityFvPatchVectorField.H | |
adjointContinuityErrs.H | Calculates and prints the continuity errors |
adjointShapeOptimisationFoam.C | Steady-state solver for incompressible, turbulent flow of non-Newtonian fluids with optimisation of duct shape by applying "blockage" in regions causing pressure loss as estimated using an adjoint formulation |
createFields.H | |
createPhia.H | Creates and initialises the face-flux field phia |
initAdjointContinuityErrs.H | Declare and initialise the cumulative adjoint continuity error |
► icoFoam | |
createFields.H | |
icoFoam.C | Transient solver for incompressible, laminar flow of Newtonian fluids |
► porousSimpleFoam | |
createFields.H | |
createPorousZones.H | |
pEqn.H | |
porousSimpleFoam.C | Steady-state solver for incompressible, turbulent flow with implicit or explicit porosity treatment and support for multiple reference frames (MRF) |
UEqn.H | |
► shallowWaterFoam | |
CourantNo.H | Calculates and outputs the maximum Courant Number |
createFields.H | |
createPhi.H | Creates and initialises the face-flux field phi |
readGravitationalAcceleration.H | |
shallowWaterFoam.C | Transient solver for inviscid shallow-water equations with rotation |
► lagrangian | |
► dsmcFoam | |
createFields.H | |
dsmcFoam.C | Direct simulation Monte Carlo (DSMC) solver for, transient, multi-species flows |
► mdEquilibrationFoam | |
mdEquilibrationFoam.C | Solver to equilibrate and/or precondition molecular dynamics systems |
readmdEquilibrationDict.H | |
► mdFoam | |
createFields.H | |
mdFoam.C | Molecular dynamics solver for fluid dynamics |
► modules | |
► compressibleMultiphaseVoF | |
► compressibleMultiphaseVoFMixture | |
► compressibleMultiphaseVoFMixtureThermo | |
compressibleMultiphaseVoFMixtureThermo.C | |
compressibleMultiphaseVoFMixtureThermo.H | |
► compressibleVoFphase | |
compressibleVoFphase.C | |
compressibleVoFphase.H | |
compressibleMultiphaseVoFMixture.C | |
compressibleMultiphaseVoFMixture.H | |
alphaPredictor.C | |
compressibleMultiphaseVoF.C | |
compressibleMultiphaseVoF.H | |
momentumPredictor.C | |
pressureCorrector.C | |
thermophysicalPredictor.C | |
► compressibleVoF | |
► compressibleInterPhaseThermophysicalTransportModel | |
compressibleInterPhaseThermophysicalTransportModel.C | |
compressibleInterPhaseThermophysicalTransportModel.H | |
► compressibleInterPhaseTransportModel | |
compressibleInterPhaseTransportModel.C | |
compressibleInterPhaseTransportModel.H | |
► compressibleTwoPhaseVoFMixture | |
compressibleTwoPhaseVoFMixture.C | |
compressibleTwoPhaseVoFMixture.H | |
► fvModels | |
► VoFCavitation | |
VoFCavitation.C | |
VoFCavitation.H | |
► VoFClouds | |
VoFClouds.C | |
VoFClouds.H | |
► VoFSolidificationMelting | |
VoFSolidificationMelting.C | |
VoFSolidificationMelting.H | |
► VoFTurbulenceDamping | |
VoFTurbulenceDamping.C | |
VoFTurbulenceDamping.H | |
alphaSuSp.C | |
compressibleVoF.C | |
compressibleVoF.H | |
momentumPredictor.C | |
pressureCorrector.C | |
thermophysicalPredictor.C | |
► film | |
► filmThermophysicalTransportModels | |
filmThermophysicalTransportModel.H | |
filmThermophysicalTransportModels.C | |
filmThermophysicalTransportModels.H | |
film.C | |
film.H | |
thermophysicalPredictor.C | |
► fluid | |
fluid.C | |
fluid.H | |
thermophysicalPredictor.C | |
► fluidSolver | |
► functionObjects | |
► fluidMaxDeltaT | |
fluidMaxDeltaT.C | |
fluidMaxDeltaT.H | |
fluidSolver.C | |
fluidSolver.H | |
► functions | |
functions.C | |
functions.H | |
► incompressibleDenseParticleFluid | |
correctPressure.C | |
incompressibleDenseParticleFluid.C | |
incompressibleDenseParticleFluid.H | |
momentumPredictor.C | |
moveMesh.C | |
► incompressibleDriftFlux | |
► incompressibleDriftFluxMixture | |
incompressibleDriftFluxMixture.C | |
incompressibleDriftFluxMixture.H | |
► mixtureViscosityModels | |
► BinghamPlastic | |
BinghamPlastic.C | |
BinghamPlastic.H | |
► mixtureViscosityModel | |
mixtureViscosityModel.C | |
mixtureViscosityModel.H | |
mixtureViscosityModelNew.C | |
► plastic | |
plastic.C | |
plastic.H | |
► Quemada | |
Quemada.C | |
Quemada.H | |
► slurry | |
slurry.C | |
slurry.H | |
► relativeVelocityModels | |
► general | |
general.C | |
general.H | |
► MichaelsBolger | |
MichaelsBolger.C | |
MichaelsBolger.H | |
► relativeVelocityModel | |
relativeVelocityModel.C | |
relativeVelocityModel.H | |
► simple | |
simple.C | |
simple.H | |
alphaSuSp.C | |
incompressibleDriftFlux.C | |
incompressibleDriftFlux.H | |
► incompressibleFluid | |
correctPressure.C | |
incompressibleFluid.C | |
incompressibleFluid.H | |
momentumPredictor.C | |
moveMesh.C | |
setRDeltaT.C | |
► incompressibleMultiphaseVoF | |
► incompressibleMultiphaseVoFMixture | |
► incompressibleVoFphase | |
incompressibleVoFphase.C | |
incompressibleVoFphase.H | |
incompressibleMultiphaseVoFMixture.C | |
incompressibleMultiphaseVoFMixture.H | |
alphaPredictor.C | |
incompressibleMultiphaseVoF.C | |
incompressibleMultiphaseVoF.H | |
pressureCorrector.C | |
► incompressibleVoF | |
► fvModels | |
► VoFCavitation | |
VoFCavitation.C | |
VoFCavitation.H | |
► VoFTurbulenceDamping | |
VoFTurbulenceDamping.C | |
VoFTurbulenceDamping.H | |
► incompressibleInterPhaseTransportModel | |
incompressibleInterPhaseTransportModel.C | |
incompressibleInterPhaseTransportModel.H | |
► incompressibleTwoPhaseVoFMixture | |
incompressibleTwoPhaseVoFMixture.C | |
incompressibleTwoPhaseVoFMixture.H | |
alphaSuSp.C | |
incompressibleVoF.C | |
incompressibleVoF.H | |
► isothermalFilm | |
► derivedFvPatchFields | |
► alphaOne | |
alphaOneFvPatchScalarField.C | |
alphaOneFvPatchScalarField.H | |
► filmContactAngle | |
filmContactAngleFvPatchScalarField.C | |
filmContactAngleFvPatchScalarField.H | |
► filmSurfaceVelocity | |
filmSurfaceVelocityFvPatchVectorField.C | |
filmSurfaceVelocityFvPatchVectorField.H | |
► mappedFilmPressure | |
mappedFilmPressureFvPatchScalarField.C | |
mappedFilmPressureFvPatchScalarField.H | |
► filmCompressibleMomentumTransportModels | |
filmCompressibleMomentumTransportModel.C | |
filmCompressibleMomentumTransportModel.H | |
filmCompressibleMomentumTransportModels.C | |
filmCompressibleMomentumTransportModels.H | |
filmCompressibleMomentumTransportModelTemplates.C | |
makeFilmCompressibleMomentumTransportModel.H | |
► filmGaussGrad | |
filmGaussGrad.C | |
filmGaussGrad.H | |
filmGaussGrads.C | |
► fvModels | |
► filmCloudTransfer | |
► cloudFilmTransfer | |
► CloudFilmTransfer | |
CloudFilmTransfer.C | |
CloudFilmTransfer.H | |
CloudFilmTransferBase.C | |
makeReactingMultiphaseParcelCloudFilmTransfer.C | |
makeReactingParcelCloudFilmTransfer.C | |
makeSprayParcelCloudFilmTransfer.C | |
makeThermoParcelCloudFilmTransfer.C | |
► ejectionModels | |
► BrunDripping | |
BrunDripping.C | |
BrunDripping.H | |
► curvatureSeparation | |
curvatureSeparation.C | |
curvatureSeparation.H | |
► dripping | |
dripping.C | |
dripping.H | |
► ejectionModel | |
ejectionModel.C | |
ejectionModel.H | |
ejectionModelNew.C | |
filmCloudTransfer.C | |
filmCloudTransfer.H | |
► filmVoFTransfer | |
filmVoFTransfer.C | |
filmVoFTransfer.H | |
VoFFilmTransfer.C | |
VoFFilmTransfer.H | |
► patches | |
► filmFvPatch | |
filmFvPatch.C | |
filmFvPatch.H | |
► filmSurface | |
► filmSurfaceFvPatch | |
filmSurfaceFvPatch.C | |
filmSurfaceFvPatch.H | |
► filmSurfacePointPatch | |
filmSurfacePointPatch.C | Wall plane patch |
filmSurfacePointPatch.H | |
► filmSurfacePolyPatch | |
filmSurfacePolyPatch.C | |
filmSurfacePolyPatch.H | |
► filmWall | |
► filmWallFvPatch | |
filmWallFvPatch.C | |
filmWallFvPatch.H | |
► filmWallPointPatch | |
filmWallPointPatch.C | Wall plane patch |
filmWallPointPatch.H | |
► filmWallPolyPatch | |
filmWallPolyPatch.C | |
filmWallPolyPatch.H | |
► mappedFilmSurface | |
► mappedFilmSurfaceFvPatch | |
mappedFilmSurfaceFvPatch.C | |
mappedFilmSurfaceFvPatch.H | |
► mappedFilmSurfacePointPatch | |
mappedFilmSurfacePointPatch.C | |
mappedFilmSurfacePointPatch.H | |
► mappedFilmSurfacePolyPatch | |
mappedFilmSurfacePolyPatch.C | |
mappedFilmSurfacePolyPatch.H | |
► mappedFilmWall | |
► mappedFilmWallFvPatch | |
mappedFilmWallFvPatch.C | |
mappedFilmWallFvPatch.H | |
► mappedFilmWallPointPatch | |
mappedFilmWallPointPatch.C | |
mappedFilmWallPointPatch.H | |
► mappedFilmWallPolyPatch | |
mappedFilmWallPolyPatch.C | |
mappedFilmWallPolyPatch.H | |
contactForce.C | |
continuityPredictor.C | |
correctAlpha.C | |
isothermalFilm.C | |
isothermalFilm.H | |
isothermalFilmTemplates.C | |
momentumPredictor.C | |
prePredictor.C | |
► isothermalFluid | |
correctBuoyantPressure.C | |
correctDensity.C | |
correctPressure.C | |
isothermalFluid.C | |
isothermalFluid.H | |
momentumPredictor.C | |
moveMesh.C | |
prePredictor.C | |
setRDeltaT.C | |
► movingMesh | |
movingMesh.C | |
movingMesh.H | |
► multicomponentFluid | |
multicomponentFluid.C | |
multicomponentFluid.H | |
setRDeltaT.C | |
thermophysicalPredictor.C | |
► multiphaseEuler | |
► functionObjects | |
► phaseForces | |
phaseForces.C | |
phaseForces.H | |
► phaseMap | |
phaseMap.C | |
phaseMap.H | |
► populationBalanceMoments | |
populationBalanceMoments.C | |
populationBalanceMoments.H | |
► populationBalanceSizeDistribution | |
populationBalanceSizeDistribution.C | |
populationBalanceSizeDistribution.H | |
► wallBoilingProperties | |
wallBoilingProperties.C | |
wallBoilingProperties.H | |
► fvModels | |
► interfaceTurbulenceDamping | |
interfaceTurbulenceDamping.C | |
interfaceTurbulenceDamping.H | |
► nucleation | |
► derivedFvFieldSources | |
► nucleationSizeGroup | |
nucleationSizeGroupFvScalarFieldSource.C | |
nucleationSizeGroupFvScalarFieldSource.H | |
► homogeneousCondensation | |
homogeneousCondensation.C | |
homogeneousCondensation.H | |
► homogeneousLiquidPhaseSeparation | |
homogeneousLiquidPhaseSeparation.C | |
homogeneousLiquidPhaseSeparation.H | |
► nucleation | |
nucleation.C | |
nucleation.H | |
► phaseTurbulenceStabilisation | |
phaseTurbulenceStabilisation.C | |
phaseTurbulenceStabilisation.H | |
► interfacialModels | |
► aspectRatioModels | |
► aspectRatioModel | |
aspectRatioModel.C | |
aspectRatioModel.H | |
aspectRatioModelNew.C | |
► constantAspectRatio | |
constantAspectRatio.C | |
constantAspectRatio.H | |
► TomiyamaAspectRatio | |
TomiyamaAspectRatio.C | |
TomiyamaAspectRatio.H | |
► VakhrushevEfremov | |
VakhrushevEfremov.C | |
VakhrushevEfremov.H | |
► Wellek | |
Wellek.C | |
Wellek.H | |
► diffusiveMassTransferModels | |
► diffusiveMassTransferModel | |
diffusiveMassTransferModel.C | |
diffusiveMassTransferModel.H | |
diffusiveMassTransferModelNew.C | |
► Frossling | |
Frossling.C | |
Frossling.H | |
► sphericalDiffusiveMassTransfer | |
sphericalDiffusiveMassTransfer.C | |
sphericalDiffusiveMassTransfer.H | |
► dragModels | |
► aerosolDrag | |
aerosolDrag.C | |
aerosolDrag.H | |
► AttouFerschneider | |
AttouFerschneider.C | |
AttouFerschneider.H | |
► Beetstra | |
Beetstra.C | |
Beetstra.H | |
► dispersedDragModel | |
dispersedDragModel.C | |
dispersedDragModel.H | |
► dragModel | |
dragModel.C | |
dragModel.H | |
dragModelNew.C | |
► Ergun | |
Ergun.C | |
Ergun.H | |
► Gibilaro | |
Gibilaro.C | |
Gibilaro.H | |
► GidaspowErgunWenYu | |
GidaspowErgunWenYu.C | |
GidaspowErgunWenYu.H | |
► GidaspowSchillerNaumann | |
GidaspowSchillerNaumann.C | |
GidaspowSchillerNaumann.H | |
► IshiiZuber | |
IshiiZuber.C | |
IshiiZuber.H | |
► Lain | |
Lain.C | |
Lain.H | |
► SchillerNaumann | |
SchillerNaumann.C | |
SchillerNaumann.H | |
► segregated | |
segregated.C | |
segregated.H | |
► SyamlalOBrien | |
SyamlalOBrien.C | |
SyamlalOBrien.H | |
► Tenneti | |
Tenneti.C | |
Tenneti.H | |
► timeScaleFilteredDrag | |
timeScaleFilteredDrag.C | |
timeScaleFilteredDrag.H | |
► TomiyamaAnalytic | |
TomiyamaAnalytic.C | |
TomiyamaAnalytic.H | |
► TomiyamaCorrelated | |
TomiyamaCorrelated.C | |
TomiyamaCorrelated.H | |
► TomiyamaKataokaZunSakaguchi | |
TomiyamaKataokaZunSakaguchi.C | |
TomiyamaKataokaZunSakaguchi.H | |
► WenYu | |
WenYu.C | |
WenYu.H | |
► heatTransferModels | |
► constantNu | |
constantNuHeatTransfer.C | |
constantNuHeatTransfer.H | |
► Gunn | |
Gunn.C | |
Gunn.H | |
► heatTransferModel | |
heatTransferModel.C | |
heatTransferModel.H | |
heatTransferModelNew.C | |
► nonSphericalHeatTransfer | |
nonSphericalHeatTransfer.C | |
nonSphericalHeatTransfer.H | |
► Prandtl | |
Prandtl.C | |
Prandtl.H | |
► RanzMarshall | |
RanzMarshall.C | |
RanzMarshall.H | |
► sphericalHeatTransfer | |
sphericalHeatTransfer.C | |
sphericalHeatTransfer.H | |
► timeScaleFilteredHeatTransfer | |
timeScaleFilteredHeatTransfer.C | |
timeScaleFilteredHeatTransfer.H | |
► interfaceCompositionModels | |
► Henry | |
Henry.C | |
Henry.H | |
► interfaceCompositionModel | |
interfaceCompositionModel.C | |
interfaceCompositionModel.H | |
interfaceCompositionModelI.H | |
interfaceCompositionModelNew.C | |
► nonRandomTwoLiquid | |
nonRandomTwoLiquid.C | |
nonRandomTwoLiquid.H | |
► Raoult | |
Raoult.C | |
Raoult.H | |
► saturated | |
saturated.C | |
saturated.H | |
► interfaceSaturationTemperatureModel | |
interfaceSaturationTemperatureModel.C | |
interfaceSaturationTemperatureModel.H | |
interfaceSaturationTemperatureModelNew.C | |
► interfaceSurfaceTensionModels | |
► constantSurfaceTensionCoefficient | |
constantSurfaceTensionCoefficient.C | |
constantSurfaceTensionCoefficient.H | |
► interfaceSurfaceTensionModel | |
interfaceSurfaceTensionModel.C | |
interfaceSurfaceTensionModel.H | |
interfaceSurfaceTensionModelNew.C | |
► liftModels | |
► constantLiftCoefficient | |
constantLiftCoefficient.C | |
constantLiftCoefficient.H | |
► dispersedLiftModel | |
dispersedLiftModel.C | |
dispersedLiftModel.H | |
► LegendreMagnaudet | |
LegendreMagnaudet.C | |
LegendreMagnaudet.H | |
► liftModel | |
liftModel.C | |
liftModel.H | |
liftModelNew.C | |
► Moraga | |
Moraga.C | |
Moraga.H | |
► noLift | |
noLift.C | |
noLift.H | |
► SaffmanMei | |
SaffmanMei.C | |
SaffmanMei.H | |
► TomiyamaLift | |
TomiyamaLift.C | |
TomiyamaLift.H | |
► wallDampedLift | |
wallDampedLift.C | |
wallDampedLift.H | |
► phaseTransferModels | |
► cavitation | |
cavitation.C | |
cavitation.H | |
► deposition | |
deposition.C | |
deposition.H | |
► phaseTransferModel | |
phaseTransferModel.C | |
phaseTransferModel.H | |
phaseTransferModelNew.C | |
► reactionDriven | |
reactionDriven.C | |
reactionDriven.H | |
► swarmCorrections | |
► noSwarm | |
noSwarm.C | |
noSwarm.H | |
► swarmCorrection | |
swarmCorrection.C | |
swarmCorrection.H | |
swarmCorrectionNew.C | |
► TomiyamaSwarm | |
TomiyamaSwarm.C | |
TomiyamaSwarm.H | |
► turbulentDispersionModels | |
► Burns | |
Burns.C | |
Burns.H | |
► constantTurbulentDispersionCoefficient | |
constantTurbulentDispersionCoefficient.C | |
constantTurbulentDispersionCoefficient.H | |
► dispersedTurbulentDispersionModel | |
dispersedTurbulentDispersionModel.C | |
dispersedTurbulentDispersionModel.H | |
► Gosman | |
Gosman.C | |
Gosman.H | |
► LopezDeBertodano | |
LopezDeBertodano.C | |
LopezDeBertodano.H | |
► noTurbulentDispersion | |
noTurbulentDispersion.C | |
noTurbulentDispersion.H | |
► turbulentDispersionModel | |
turbulentDispersionModel.C | |
turbulentDispersionModel.H | |
turbulentDispersionModelNew.C | |
► virtualMassModels | |
► constantVirtualMassCoefficient | |
constantVirtualMassCoefficient.C | |
constantVirtualMassCoefficient.H | |
► dispersedVirtualMassModel | |
dispersedVirtualMassModel.C | |
dispersedVirtualMassModel.H | |
► Lamb | |
Lamb.C | |
Lamb.H | |
► noVirtualMass | |
noVirtualMass.C | |
noVirtualMass.H | |
► virtualMassModel | |
virtualMassModel.C | |
virtualMassModel.H | |
virtualMassModelNew.C | |
► wallDampingModels | |
► cosine | |
cosineWallDamping.C | |
cosineWallDamping.H | |
► linear | |
linearWallDamping.C | |
linearWallDamping.H | |
► sine | |
sineWallDamping.C | |
sineWallDamping.H | |
► wallDampingModel | |
wallDampingModel.C | |
wallDampingModel.H | |
wallDampingModelNew.C | |
► wallDependentModel | |
wallDependentModel.C | |
wallDependentModel.H | |
► wallLubricationModels | |
► Antal | |
Antal.C | |
Antal.H | |
► dispersedWallLubricationModel | |
dispersedWallLubricationModel.C | |
dispersedWallLubricationModel.H | |
► Frank | |
Frank.C | |
Frank.H | |
► noWallLubrication | |
noWallLubrication.C | |
noWallLubrication.H | |
► TomiyamaWallLubrication | |
TomiyamaWallLubrication.C | |
TomiyamaWallLubrication.H | |
► wallLubricationModel | |
wallLubricationModel.C | |
wallLubricationModel.H | |
wallLubricationModelNew.C | |
► momentumTransportModels | |
► derivedFvPatchFields | |
► JohnsonJacksonParticleSlip | |
JohnsonJacksonParticleSlipFvPatchVectorField.C | |
JohnsonJacksonParticleSlipFvPatchVectorField.H | |
► JohnsonJacksonParticleTheta | |
JohnsonJacksonParticleThetaFvPatchScalarField.C | |
JohnsonJacksonParticleThetaFvPatchScalarField.H | |
► kineticTheoryModels | |
► conductivityModel | |
► conductivityModel | |
conductivityModel.C | |
conductivityModel.H | |
conductivityModelNew.C | |
► Gidaspow | |
GidaspowConductivity.C | |
GidaspowConductivity.H | |
► HrenyaSinclair | |
HrenyaSinclairConductivity.C | |
HrenyaSinclairConductivity.H | |
► Syamlal | |
SyamlalConductivity.C | |
SyamlalConductivity.H | |
► frictionalStressModel | |
► frictionalStressModel | |
frictionalStressModel.C | |
frictionalStressModel.H | |
frictionalStressModelNew.C | |
► JohnsonJackson | |
JohnsonJacksonFrictionalStress.C | |
JohnsonJacksonFrictionalStress.H | |
► JohnsonJacksonSchaeffer | |
JohnsonJacksonSchaefferFrictionalStress.C | |
JohnsonJacksonSchaefferFrictionalStress.H | |
► Schaeffer | |
SchaefferFrictionalStress.C | |
SchaefferFrictionalStress.H | |
► granularPressureModel | |
► granularPressureModel | |
granularPressureModel.C | |
granularPressureModel.H | |
granularPressureModelNew.C | |
► Lun | |
LunPressure.C | |
LunPressure.H | |
► SyamlalRogersOBrien | |
SyamlalRogersOBrienPressure.C | |
SyamlalRogersOBrienPressure.H | |
► kineticTheoryModel | |
kineticTheoryModel.C | |
kineticTheoryModel.H | |
► radialModel | |
► CarnahanStarling | |
CarnahanStarlingRadial.C | |
CarnahanStarlingRadial.H | |
► LunSavage | |
LunSavageRadial.C | |
LunSavageRadial.H | |
► radialModel | |
radialModel.C | |
radialModel.H | |
radialModelNew.C | |
► SinclairJackson | |
SinclairJacksonRadial.C | |
SinclairJacksonRadial.H | |
► viscosityModel | |
► Gidaspow | |
GidaspowViscosity.C | |
GidaspowViscosity.H | |
► HrenyaSinclair | |
HrenyaSinclairViscosity.C | |
HrenyaSinclairViscosity.H | |
► none | |
noneViscosity.C | |
noneViscosity.H | |
► Syamlal | |
SyamlalViscosity.C | |
SyamlalViscosity.H | |
► viscosityModel | |
kineticTheoryViscosityModel.C | |
kineticTheoryViscosityModel.H | |
kineticTheoryViscosityModelNew.C | |
► phasePressureModel | |
phasePressureModel.C | |
phasePressureModel.H | |
momentumTransportModels.C | |
► phaseSystem | |
► BlendedInterfacialModel | |
► blendingMethods | |
► blendingMethod | |
blendingMethod.C | |
blendingMethod.H | |
blendingMethodNew.C | |
► continuous | |
continuous.C | |
continuous.H | |
► hyperbolic | |
hyperbolic.C | |
hyperbolic.H | |
► linear | |
linear.C | |
linear.H | |
► segregatedBlendingMethod | |
segregatedBlendingMethod.C | |
segregatedBlendingMethod.H | |
BlendedInterfacialModel.C | |
BlendedInterfacialModel.H | |
► diameterModels | |
► constantDiameter | |
constantDiameter.C | |
constantDiameter.H | |
► diameterModel | |
diameterModel.C | |
diameterModel.H | |
diameterModelNew.C | |
► fixedInterfacialAreaDiameter | |
fixedInterfacialAreaDiameter.C | |
fixedInterfacialAreaDiameter.H | |
► IATE | |
► IATEsources | |
► dummy | |
dummy.C | |
dummy.H | |
► IATEsource | |
IATEsource.C | |
IATEsource.H | |
► phaseChange | |
IATEphaseChange.C | |
IATEphaseChange.H | |
► randomCoalescence | |
IATErandomCoalescence.C | |
IATErandomCoalescence.H | |
► turbulentBreakUp | |
IATEturbulentBreakUp.C | |
IATEturbulentBreakUp.H | |
► wakeEntrainmentCoalescence | |
IATEwakeEntrainmentCoalescence.C | |
IATEwakeEntrainmentCoalescence.H | |
IATE.C | |
IATE.H | |
► isothermalDiameter | |
isothermalDiameter.C | |
isothermalDiameter.H | |
► linearTsubDiameter | |
linearTsubDiameter.C | |
linearTsubDiameter.H | |
► noDiameter | |
noDiameter.C | |
noDiameter.H | |
► residualDiameter | |
residualDiameter.C | |
residualDiameter.H | |
► sphericalDiameter | |
sphericalDiameter.C | |
sphericalDiameter.H | |
► phaseInterface | |
► dispersedDisplacedPhaseInterface | |
dispersedDisplacedPhaseInterface.C | |
dispersedDisplacedPhaseInterface.H | |
► dispersedDisplacedSidedPhaseInterface | |
dispersedDisplacedSidedPhaseInterface.C | |
dispersedDisplacedSidedPhaseInterface.H | |
► dispersedPhaseInterface | |
dispersedPhaseInterface.C | |
dispersedPhaseInterface.H | |
► dispersedSidedPhaseInterface | |
dispersedSidedPhaseInterface.C | |
dispersedSidedPhaseInterface.H | |
► displacedPhaseInterface | |
displacedPhaseInterface.C | |
displacedPhaseInterface.H | |
► displacedSidedPhaseInterface | |
displacedSidedPhaseInterface.C | |
displacedSidedPhaseInterface.H | |
► phaseInterface | |
phaseInterface.C | |
phaseInterface.H | |
phaseInterfaceI.H | |
► phaseInterfaceKey | |
phaseInterfaceKey.C | |
phaseInterfaceKey.H | |
► segregatedDisplacedPhaseInterface | |
segregatedDisplacedPhaseInterface.C | |
segregatedDisplacedPhaseInterface.H | |
► segregatedDisplacedSidedPhaseInterface | |
segregatedDisplacedSidedPhaseInterface.C | |
segregatedDisplacedSidedPhaseInterface.H | |
► segregatedPhaseInterface | |
segregatedPhaseInterface.C | |
segregatedPhaseInterface.H | |
► segregatedSidedPhaseInterface | |
segregatedSidedPhaseInterface.C | |
segregatedSidedPhaseInterface.H | |
► sidedPhaseInterface | |
sidedPhaseInterface.C | |
sidedPhaseInterface.H | |
► phaseModel | |
phaseModel.C | |
phaseModel.H | |
phaseModelNew.C | |
► phaseModels | |
► AnisothermalPhaseModel | |
AnisothermalPhaseModel.C | |
AnisothermalPhaseModel.H | |
► InertPhaseModel | |
InertPhaseModel.C | |
InertPhaseModel.H | |
► IsothermalPhaseModel | |
IsothermalPhaseModel.C | |
IsothermalPhaseModel.H | |
► IsothermalSolidPhaseModel | |
IsothermalSolidPhaseModel.C | |
IsothermalSolidPhaseModel.H | |
► MovingPhaseModel | |
MovingPhaseModel.C | |
MovingPhaseModel.H | |
► MulticomponentPhaseModel | |
MulticomponentPhaseModel.C | |
MulticomponentPhaseModel.H | |
► PurePhaseModel | |
PurePhaseModel.C | |
PurePhaseModel.H | |
► ReactingPhaseModel | |
ReactingPhaseModel.C | |
ReactingPhaseModel.H | |
► SolidThermalPhaseModel | |
SolidThermalPhaseModel.C | |
SolidThermalPhaseModel.H | |
► SolidThermoPhaseModel | |
SolidThermoPhaseModel.C | |
SolidThermoPhaseModel.H | |
► StationaryPhaseModel | |
StationaryPhaseModel.C | |
StationaryPhaseModel.H | |
► ThermoPhaseModel | |
ThermoPhaseModel.C | |
ThermoPhaseModel.H | |
phaseModels.C | |
► phaseSystem | |
phaseSystem.C | |
phaseSystem.H | |
phaseSystemI.H | |
phaseSystemNew.C | |
phaseSystemSolve.C | |
phaseSystemTemplates.C | |
► SidedInterfacialModel | |
SidedInterfacialModel.C | |
SidedInterfacialModel.H | |
► phaseSystems | |
► HeatTransferPhaseSystem | |
HeatTransferPhaseSystem.C | |
HeatTransferPhaseSystem.H | |
► InterfaceCompositionPhaseChangePhaseSystem | |
InterfaceCompositionPhaseChangePhaseSystem.C | |
InterfaceCompositionPhaseChangePhaseSystem.H | |
► MomentumTransferPhaseSystem | |
MomentumTransferPhaseSystem.C | |
MomentumTransferPhaseSystem.H | |
► OneResistanceHeatTransferPhaseSystem | |
OneResistanceHeatTransferPhaseSystem.C | |
OneResistanceHeatTransferPhaseSystem.H | |
► PhaseTransferPhaseSystem | |
PhaseTransferPhaseSystem.C | |
PhaseTransferPhaseSystem.H | |
► PopulationBalancePhaseSystem | |
PopulationBalancePhaseSystem.C | |
PopulationBalancePhaseSystem.H | |
► ThermalPhaseChangePhaseSystem | |
ThermalPhaseChangePhaseSystem.C | |
ThermalPhaseChangePhaseSystem.H | |
► TwoResistanceHeatTransferPhaseSystem | |
TwoResistanceHeatTransferPhaseSystem.C | |
TwoResistanceHeatTransferPhaseSystem.H | |
phaseSystems.C | |
► populationBalance | |
► binaryBreakupModels | |
► binaryBreakupModel | |
binaryBreakupModel.C | |
binaryBreakupModel.H | |
► LehrMilliesMewes | |
LehrMilliesMewes.C | |
LehrMilliesMewes.H | |
► Liao | |
Liao.C | |
Liao.H | |
LiaoBase.C | |
LiaoBase.H | |
► LuoSvendsen | |
LuoSvendsen.C | |
LuoSvendsen.H | |
► powerLawUniformBinary | |
powerLawUniformBinary.C | |
powerLawUniformBinary.H | |
► breakupModels | |
► breakupModel | |
breakupModel.C | |
breakupModel.H | |
► exponential | |
exponential.C | |
exponential.H | |
► Kusters | |
Kusters.C | |
Kusters.H | |
► Laakkonen | |
Laakkonen.C | |
Laakkonen.H | |
► powerLaw | |
powerLaw.C | |
powerLaw.H | |
► coalescenceModels | |
► AdachiStuartFokkink | |
AdachiStuartFokkink.C | |
AdachiStuartFokkink.H | |
► ballisticCollisions | |
ballisticCollisions.C | |
ballisticCollisions.H | |
► BrownianCollisions | |
BrownianCollisions.C | |
BrownianCollisions.H | |
► coalescenceModel | |
coalescenceModel.C | |
coalescenceModel.H | |
► constantCoalescence | |
constantCoalescence.C | |
constantCoalescence.H | |
► CoulaloglouTavlarides | |
CoulaloglouTavlarides.C | |
CoulaloglouTavlarides.H | |
► DahnekeInterpolation | |
DahnekeInterpolation.C | |
DahnekeInterpolation.H | |
► hydrodynamic | |
hydrodynamic.C | |
hydrodynamic.H | |
► LehrMilliesMewesCoalescence | |
LehrMilliesMewesCoalescence.C | |
LehrMilliesMewesCoalescence.H | |
► LiaoCoalescence | |
LiaoCoalescence.C | |
LiaoCoalescence.H | |
► Luo | |
Luo.C | |
Luo.H | |
► PrinceBlanch | |
PrinceBlanch.C | |
PrinceBlanch.H | |
► turbulentShear | |
turbulentShear.C | |
turbulentShear.H | |
► daughterSizeDistributionModels | |
► daughterSizeDistributionModel | |
daughterSizeDistributionModel.C | |
daughterSizeDistributionModel.H | |
► LaakkonenDaughterSizeDistribution | |
LaakkonenDaughterSizeDistribution.C | |
LaakkonenDaughterSizeDistribution.H | |
► uniformBinary | |
uniformBinary.C | |
uniformBinary.H | |
► diameterModels | |
► velocityGroup | |
► sizeGroup | |
► SecondaryPropertyModel | |
SecondaryPropertyModel.C | |
SecondaryPropertyModel.H | |
► shapeModels | |
► fractal | |
► sinteringModels | |
► KochFriedlander | |
KochFriedlander.C | |
KochFriedlander.H | |
► noSintering | |
noSintering.C | |
noSintering.H | |
► sinteringModel | |
sinteringModel.C | |
sinteringModel.H | |
fractal.C | |
fractal.H | |
► shapeModel | |
shapeModel.C | |
shapeModel.H | |
► spherical | |
spherical.C | |
spherical.H | |
sizeGroup.C | |
sizeGroup.H | |
sizeGroupI.H | |
velocityGroup.C | |
velocityGroup.H | |
velocityGroupI.H | |
► driftModels | |
► constantDrift | |
constantDrift.C | |
constantDrift.H | |
► densityChange | |
densityChange.C | |
densityChange.H | |
► driftModel | |
driftModel.C | |
driftModel.H | |
► phaseChange | |
phaseChange.C | |
phaseChange.H | |
► nucleationModels | |
► nucleationModel | |
nucleationModel.C | |
nucleationModel.H | |
► reactionDriven | |
reactionDriven.C | |
reactionDriven.H | |
► populationBalanceModel | |
populationBalanceModel.C | |
populationBalanceModel.H | |
populationBalanceModelI.H | |
► reactions | |
► phaseSurfaceArrheniusReactionRate | |
makephaseSurfaceArrheniusReactions.C | |
phaseSurfaceArrheniusReactionRate.H | |
phaseSurfaceArrheniusReactionRateI.H | |
► thermophysicalTransportModels | |
► derivedFvPatchFields | |
► alphatPhaseChangeWallFunctionBase | |
alphatPhaseChangeWallFunctionBase.C | |
alphatPhaseChangeWallFunctionBase.H | |
► alphatWallBoilingWallFunction | |
alphatWallBoilingWallFunctionFvPatchScalarField.C | |
alphatWallBoilingWallFunctionFvPatchScalarField.H | |
► coupledMultiphaseTemperature | |
coupledMultiphaseTemperatureFvPatchScalarField.C | |
coupledMultiphaseTemperatureFvPatchScalarField.H | |
► multiphaseExternalTemperature | |
multiphaseExternalTemperatureFvPatchScalarField.C | |
multiphaseExternalTemperatureFvPatchScalarField.H | |
► diameterModels | |
► IATE | |
► IATEsources | |
► wallBoiling | |
IATEwallBoiling.C | |
IATEwallBoiling.H | |
► heatTransferModels | |
► wallBoiling | |
wallBoilingHeatTransfer.C | |
wallBoilingHeatTransfer.H | |
► heatTransferPhaseSystem | |
heatTransferPhaseSystem.C | |
heatTransferPhaseSystem.H | |
► populationBalanceModel | |
► nucleationModels | |
► wallBoiling | |
wallBoiling.C | |
wallBoiling.H | |
► twoResistanceHeatTransferPhaseSystem | |
twoResistanceHeatTransferPhaseSystem.C | |
twoResistanceHeatTransferPhaseSystem.H | |
► wallBoilingSubModels | |
► departureDiameterModels | |
► departureDiameterModel | |
departureDiameterModel.C | |
departureDiameterModel.H | |
departureDiameterModelNew.C | |
► KocamustafaogullariIshiiDepartureDiameter | |
KocamustafaogullariIshiiDepartureDiameter.C | |
KocamustafaogullariIshiiDepartureDiameter.H | |
► TolubinskiKostanchuk | |
TolubinskiKostanchuk.C | |
TolubinskiKostanchuk.H | |
► departureFrequencyModels | |
► Cole | |
Cole.C | |
Cole.H | |
► departureFrequencyModel | |
departureFrequencyModel.C | |
departureFrequencyModel.H | |
departureFrequencyModelNew.C | |
► KocamustafaogullariIshiiDepartureFrequency | |
KocamustafaogullariIshiiDepartureFrequency.C | |
KocamustafaogullariIshiiDepartureFrequency.H | |
► nucleationSiteModels | |
► KocamustafaogullariIshiiNucleationSite | |
KocamustafaogullariIshiiNucleationSite.C | |
KocamustafaogullariIshiiNucleationSite.H | |
► LemmertChawla | |
LemmertChawla.C | |
LemmertChawla.H | |
► nucleationSiteModel | |
nucleationSiteModel.C | |
nucleationSiteModel.H | |
nucleationSiteModelNew.C | |
► partitioningModels | |
► cosine | |
cosine.C | |
cosine.H | |
► Lavieville | |
Lavieville.C | |
Lavieville.H | |
► linear | |
linear.C | |
linear.H | |
► partitioningModel | |
partitioningModel.C | |
partitioningModel.H | |
partitioningModelNew.C | |
► phaseFraction | |
phaseFraction.C | |
phaseFraction.H | |
wallBoilingModelsCoefficient.H | |
cellPressureCorrector.C | |
compressibilityEqns.C | |
facePressureCorrector.C | |
momentumPredictor.C | |
moveMesh.C | |
multiphaseEuler.C | |
multiphaseEuler.H | |
pressureCorrector.C | |
setRDeltaT.C | |
thermophysicalPredictor.C | |
► multiphaseVoFSolver | |
► multiphaseVoFMixture | |
► VoFphase | |
VoFphase.C | |
VoFphase.H | |
multiphaseVoFMixture.C | |
multiphaseVoFMixture.H | |
multiphaseVoFSolver.C | |
multiphaseVoFSolver.H | |
setInterfaceRDeltaT.C | |
► shockFluid | |
► derivedFvPatchFields | |
► mixedFixedValueSlip | |
mixedFixedValueSlipFvPatchField.C | |
mixedFixedValueSlipFvPatchField.H | |
mixedFixedValueSlipFvPatchFields.C | |
mixedFixedValueSlipFvPatchFields.H | |
mixedFixedValueSlipFvPatchFieldsFwd.H | |
► rho | |
fixedRhoFvPatchScalarField.C | |
fixedRhoFvPatchScalarField.H | |
► T | |
smoluchowskiJumpTFvPatchScalarField.C | |
smoluchowskiJumpTFvPatchScalarField.H | |
► U | |
maxwellSlipUFvPatchVectorField.C | |
maxwellSlipUFvPatchVectorField.H | |
correctDensity.C | |
fluxPredictor.C | |
momentumPredictor.C | |
moveMesh.C | |
prePredictor.C | |
pressureCorrector.C | |
setRDeltaT.C | |
shockFluid.C | |
shockFluid.H | |
thermophysicalPredictor.C | |
► solid | |
solid.C | |
solid.H | |
► solidDisplacement | |
► derivedFvPatchFields | |
► hydrostaticDisplacement | |
hydrostaticDisplacementFvPatchVectorField.C | |
hydrostaticDisplacementFvPatchVectorField.H | |
► tractionDisplacement | |
tractionDisplacementFvPatchVectorField.C | |
tractionDisplacementFvPatchVectorField.H | |
tractionDisplacementFvPatchVectorFieldTemplates.C | |
► solidDisplacementThermo | |
solidDisplacementThermo.C | |
solidDisplacementThermo.H | |
solidDisplacement.C | |
solidDisplacement.H | |
► twoPhaseSolver | |
► twoPhaseVoFMixture | |
twoPhaseVoFMixture.C | |
twoPhaseVoFMixture.H | |
alphaPredictor.C | |
pressureCorrector.C | |
twoPhaseSolver.C | |
twoPhaseSolver.H | |
► twoPhaseVoFSolver | |
setInterfaceRDeltaT.C | |
twoPhaseVoFSolver.C | |
twoPhaseVoFSolver.H | |
► VoFSolver | |
► VoFMixture | |
VoFMixture.C | |
VoFMixture.H | |
momentumPredictor.C | |
moveMesh.C | |
setRDeltaT.C | |
VoFSolver.C | |
VoFSolver.H | |
► XiFluid | |
thermophysicalPredictor.C | |
XiFluid.C | |
XiFluid.H | |
► solvers | |
► boundaryFoam | |
boundaryFoam.C | Steady-state solver for incompressible, 1D turbulent flow, typically to generate boundary layer conditions at an inlet, for use in a simulation |
createFields.H | |
evaluateNearWall.H | |
interrogateWallPatches.H | |
makeGraphs.H | |
► chemFoam | |
chemFoam.C | Solver for chemistry problems, designed for use on single cell cases to provide comparison against other chemistry solvers, that uses a single cell mesh, and fields created from the initial conditions |
createBaseFields.H | |
createControls.H | |
createFieldRefs.H | |
createFields.H | |
createZeroDimensionalFvMesh.H | |
hEqn.H | |
output.H | |
pEqn.H | |
readControls.H | |
readInitialConditions.H | |
setDeltaT.H | |
solveChemistry.H | |
thermoTypeFunctions.H | |
YEqn.H | |
► foamMultiRun | |
► regionSolvers | |
regionSolvers.C | |
regionSolvers.H | |
regionSolversI.H | |
foamMultiRun.C | Loads and executes an OpenFOAM solver modules for each region of a multiregion simulation e.g. for conjugate heat transfer |
setDeltaT.C | |
setDeltaT.H | Foam::setDeltaT sets the initial time-step according to the solver maxDeltaT Foam::adjustDeltaT adjust the time-step according to the solver maxDeltaT |
► foamRun | |
foamRun.C | Loads and executes an OpenFOAM solver module either specified by the optional solver entry in the controlDict or as a command-line argument |
setDeltaT.C | |
setDeltaT.H | Foam::setDeltaT sets the initial time-step according to the solver maxDeltaT Foam::adjustDeltaT adjust the time-step according to the solver maxDeltaT |
► potentialFoam | |
createControls.H | |
createFields.H | |
potentialFoam.C | Potential flow solver which solves for the velocity potential, to calculate the flux-field, from which the velocity field is obtained by reconstructing the flux |
► utilities | |
► mesh | |
► advanced | |
► autoRefineMesh | |
autoRefineMesh.C | Utility to refine cells near to a surface |
► collapseEdges | |
collapseEdges.C | Collapses short edges and combines edges that are in line |
► combinePatchFaces | |
combinePatchFaces.C | Checks for multiple patch faces on same cell and combines them. Multiple patch faces can result from e.g. removal of refined neighbouring cells, leaving 4 exposed faces with same owner |
► PDRMesh | |
PDRMesh.C | Mesh and field preparation utility for PDR type simulations |
► refineHexMesh | |
refineHexMesh.C | Refines a hex mesh by 2x2x2 cell splitting |
► refinementLevel | |
refinementLevel.C | Tries to figure out what the refinement level is on refined cartesian meshes. Run BEFORE snapping |
► refineWallLayer | |
refineWallLayer.C | Utility to refine cells next to patches |
► removeFaces | |
removeFaces.C | Utility to remove faces (combines cells on both sides) |
► selectCells | |
edgeStats.C | |
edgeStats.H | |
selectCells.C | Select cells in relation to surface |
► splitCells | |
splitCells.C | Utility to split cells with flat faces |
► conversion | |
► ansysToFoam | |
ansysToFoam.C | Converts an ANSYS input mesh file, exported from I-DEAS, to OpenFOAM format |
► cfx4ToFoam | |
cfx4ToFoam.C | Converts a CFX 4 mesh to OpenFOAM format |
hexBlock.C | |
hexBlock.H | |
► datToFoam | |
datToFoam.C | Reads in a datToFoam mesh file and outputs a points file. Used in conjunction with blockMesh |
► fluent3DMeshToFoam | |
fluent3DMeshToFoam.C | Converts a Fluent mesh to OpenFOAM format |
► fluentMeshToFoam | |
cellShapeRecognition.H | |
create3DCellShape.C | Construct a cell shape from face information |
extrudedQuadCellShape.C | Construct an extruded hex cell shape from four straight edges |
extrudedTriangleCellShape.C | Construct an extruded triangular prism cell shape from three straight edges |
fluentMeshToFoam.C | Converts a Fluent mesh to OpenFOAM format including multiple region and region boundary handling |
► foamMeshToFluent | |
fluentFvMesh.C | |
fluentFvMesh.H | |
foamMeshToFluent.C | Writes out the OpenFOAM mesh in Fluent mesh format |
► foamToStarMesh | |
foamToStarMesh.C | Reads an OpenFOAM mesh and writes a pro-STAR (v4) bnd/cel/vrt format |
getTimeIndex.H | |
► foamToSurface | |
foamToSurface.C | Reads an OpenFOAM mesh and writes the boundaries in a surface format |
getTimeIndex.H | |
► gambitToFoam | |
gambitToFoam.C | Converts a GAMBIT mesh to OpenFOAM format |
► gmshToFoam | |
gmshToFoam.C | Reads .msh file as written by Gmsh |
► ideasUnvToFoam | |
ideasUnvToFoam.C | I-Deas unv format mesh conversion |
► kivaToFoam | |
checkPatch.H | |
kivaToFoam.C | Converts a KIVA3v grid to OpenFOAM format |
readKivaGrid.H | |
► mshToFoam | |
mshToFoam.C | Converts .msh file generated by the Adventure system |
► netgenNeutralToFoam | |
netgenNeutralToFoam.C | Converts neutral file format as written by Netgen v4.4 |
► Optional | |
► ccm26ToFoam | |
ccm26ToFoam.C | Reads CCM files as written by Prostar/ccm using ccm 2.6 (not 2.4) |
► plot3dToFoam | |
hexBlock.C | |
hexBlock.H | |
plot3dToFoam.C | Plot3d mesh (ascii/formatted format) converter |
► sammToFoam | |
calcPointCells.C | Create intermediate mesh files from SAMM files |
createBoundaryFaces.C | Create intermediate mesh files from SAMM files |
createPolyBoundary.C | Create intermediate mesh files from SAMM files |
createPolyCells.C | Create intermediate mesh files from SAMM files |
fillSammAddressingTable.C | |
fillSammCellShapeTable.C | SAMM cell shape lookup table |
fixCollapsedEdges.C | Create intermediate mesh files from SAMM files |
purgeCellShapes.C | Purge cell shapes which have been rendered invalid by cell face collapse |
readBoundary.C | Create intermediate mesh files from SAMM files |
readCells.C | Create intermediate mesh from SAMM files |
readCouples.C | Create intermediate mesh from SAMM files |
readPoints.C | Create intermediate mesh from SAMM files |
sammMesh.C | |
sammMesh.H | |
sammToFoam.C | Converts a Star-CD (v3) SAMM mesh to OpenFOAM format |
starMesh.H | |
writeMesh.C | Create intermediate mesh files from SAMM files |
► star3ToFoam | |
calcPointCells.C | Create intermediate mesh files from PROSTAR files |
coupledFacePair.C | Data associated with a pair of coupled faces. 1 represents integral match; all other number are arbitrary matches |
coupledFacePair.H | |
createBoundaryFaces.C | Create intermediate mesh files from PROSTAR files |
createCoupleMatches.C | Create coupled match faces and add them to the cells |
createPolyBoundary.C | Create intermediate mesh files from PROSTAR files |
createPolyCells.C | Create intermediate mesh files from PROSTAR files |
fixCollapsedEdges.C | Create intermediate mesh files from PROSTAR files |
mergeCoupleFacePoints.C | Merge duplicate points created by arbitrary face coupling and remove unused points |
purgeCellShapes.C | Purge cell shapes which have been rendered invalid by cell face collapse |
readBoundary.C | Create intermediate mesh files from PROSTAR files |
readCells.C | Create intermediate mesh from Prostar files |
readCouples.C | Create intermediate mesh from PROSTAR files |
readPoints.C | Create intermediate mesh from PROSTAR files |
readSeparatedPoints.C | Create intermediate mesh from PROSTAR files |
star3ToFoam.C | Converts a Star-CD (v3) pro-STAR mesh into OpenFOAM format |
starMesh.C | |
starMesh.H | |
writeMesh.C | Create intermediate mesh files from PROSTAR files |
► star4ToFoam | |
star4ToFoam.C | Converts a Star-CD (v4) pro-STAR mesh into OpenFOAM format |
► tetgenToFoam | |
tetgenToFoam.C | Converts .ele and .node and .face files, written by tetgen |
► vtkUnstructuredToFoam | |
vtkUnstructuredToFoam.C | Converts ascii .vtk (legacy format) file generated by vtk/paraview |
► writeMeshObj | |
writeMeshObj.C | For mesh debugging: writes mesh as three separate OBJ files which can be viewed with e.g. javaview |
► generation | |
► blockMesh | |
blockMesh.C | A multi-block mesh generator |
► extrude2DMesh | |
► extrude2DMesh | |
► extrude2DMesh | |
extrude2DMesh.C | |
extrude2DMesh.H | |
► patchToPoly2DMesh | |
patchToPoly2DMesh.C | |
patchToPoly2DMesh.H | |
extrude2DMesh.C | Takes 2D mesh (all faces 2 points only, no front and back faces) and creates a 3D mesh by extruding with specified thickness |
► extrudeMesh | |
► extrudedMesh | |
extrudedMesh.C | |
extrudedMesh.H | |
extrudedMeshTemplates.C | |
createTimeExtruded.H | |
extrudeMesh.C | Extrude mesh from existing patch or from patch read from file |
► extrudeToRegionMesh | |
extrudeToRegionMesh.C | Extrude faceZones (internal or boundary faces) or faceSets (boundary faces only) into a separate mesh (as a different region) |
► snappyHexMesh | |
snappyHexMesh.C | Automatic split hex mesher |
► zeroDimensionalMesh | |
zeroDimensionalMesh.C | Creates a zero-dimensional mesh |
► manipulation | |
► autoPatch | |
autoPatch.C | Divides external faces into patches based on (user supplied) feature angle |
► checkMesh | |
checkMesh.C | Checks validity of a mesh |
checkMeshQuality.C | |
checkMeshQuality.H | Routines for checking mesh quality |
► createBaffles | |
► faceSelection | |
faceSelection.C | |
faceSelection.H | |
faceZoneSelection.C | |
faceZoneSelection.H | |
searchableSurfaceSelection.C | |
searchableSurfaceSelection.H | |
createBaffles.C | Makes faces into boundary faces. Does not duplicate points |
► createEngineZones | |
createEngineZones.C | Utility to create the cylinder head and piston bowl pointZones |
► createNonConformalCouples | |
createNonConformalCouples.C | Utility to create non-conformal couples between non-coupled patches |
► createPatch | |
createPatch.C | Utility to create patches out of selected boundary faces. Faces come either from existing patches or from a faceSet |
► deformedGeom | |
deformedGeom.C | Deforms a polyMesh using a displacement field U and a scaling factor supplied as an argument |
► flattenMesh | |
flattenMesh.C | Flattens the front and back planes of a 2D cartesian mesh |
► insideCells | |
insideCells.C | Picks up cells with cell centre 'inside' of surface. Requires surface to be closed and singly connected |
► mergeBaffles | |
mergeBaffles.C | Detects faces that share points (baffles) and merge them into internal faces |
► mergeMeshes | |
mergeMeshes.C | Merges meshes without stitching |
mergePolyMesh.C | |
mergePolyMesh.H | |
► mirrorMesh | |
mirrorFvMesh.C | |
mirrorFvMesh.H | |
mirrorMesh.C | Mirrors a mesh around a given plane |
readMirrorDict.H | |
► objToVTK | |
objToVTK.C | Read obj line (not surface!) file and convert into vtk |
► orientFaceZone | |
orientFaceZone.C | Corrects orientation of faceZone |
► polyDualMesh | |
meshDualiser.C | |
meshDualiser.H | |
polyDualMesh.C | Calculates the dual of a polyMesh. Adheres to all the feature and patch edges |
► refineMesh | |
refineMesh.C | Utility to refine cells in multiple directions |
► renumberMesh | |
renumberMesh.C | Renumbers the cell list in order to reduce the bandwidth, reading and renumbering all fields from all the time directories |
► reorderPatches | |
reorderPatches.C | Utility to reorder the patches of a case |
► setsToZones | |
setsToZones.C | Add pointZones/faceZones/cellZones to the mesh from similar named pointSets/faceSets/cellSets |
► singleCellMesh | |
singleCellMesh.C | Reads all fields and maps them to a mesh with all internal faces removed (singleCellFvMesh) which gets written to region "singleCell" |
► splitBaffles | |
splitBaffles.C | Detects faces that share points (baffles) and duplicates the points to separate them |
► splitMeshRegions | |
splitMeshRegions.C | Splits mesh into multiple regions |
► stitchMesh | |
stitchMesh.C | Utility to stitch or conform pairs of patches, converting the patch faces either into internal faces or conformal faces or another patch |
► subsetMesh | |
subsetMesh.C | Selects a section of mesh based on a cellSet |
► topoSet | |
topoSet.C | Executes the sequence of topoSet actions specified in the topoSetDict |
► transformPoints | |
createTransforms.H | |
transformPoints.C | Transform (translate, rotate, scale) the mesh points, and optionally also any vector and tensor fields |
► zipUpMesh | |
zipUpMesh.C | Reads in a mesh with hanging vertices and zips up the cells to guarantee that all polyhedral cells of valid shape are closed |
► miscellaneous | |
► foamDictionary | |
foamDictionary.C | Interrogates and manipulates dictionaries |
► foamFormatConvert | |
foamFormatConvert.C | Converts all IOobjects associated with a case into the format specified in the controlDict |
writeMeshObject.H | Write a mesh object in the format specified in controlDict |
► foamListTimes | |
foamListTimes.C | List times using timeSelector |
► foamToC | |
foamToC.C | Run-time selection table of contents printing and interrogation |
► patchSummary | |
patchSummary.C | Writes fields and boundary condition info for each patch at each requested time instance |
patchSummaryTemplates.C | |
patchSummaryTemplates.H | |
► parallelProcessing | |
► decomposePar | |
decomposePar.C | Automatically decomposes a mesh and fields of a case for parallel execution of OpenFOAM |
fvFieldDecomposer.C | |
fvFieldDecomposer.H | |
fvFieldDecomposerTemplates.C | |
lagrangianFieldDecomposer.C | |
lagrangianFieldDecomposer.H | |
lagrangianFieldDecomposerTemplates.C | |
pointFieldDecomposer.C | |
pointFieldDecomposer.H | |
pointFieldDecomposerTemplates.C | |
► reconstructPar | |
fvFieldReconstructor.C | |
fvFieldReconstructor.H | |
fvFieldReconstructorTemplates.C | |
lagrangianFieldReconstructor.C | |
lagrangianFieldReconstructor.H | |
lagrangianFieldReconstructorTemplates.C | |
pointFieldReconstructor.C | |
pointFieldReconstructor.H | |
pointFieldReconstructorTemplates.C | |
reconstructPar.C | Reconstructs fields of a case that is decomposed for parallel execution of OpenFOAM |
► redistributePar | |
loadOrCreateMesh.C | |
loadOrCreateMesh.H | Load or create (0 size) a mesh. Used in distributing meshes to a larger number of processors |
redistributePar.C | Redistributes existing decomposed mesh and fields according to the current settings in the decomposeParDict file |
► postProcessing | |
► dataConversion | |
► foamDataToFluent | |
foamDataToFluent.C | Translates OpenFOAM data to Fluent format |
writeFluentFields.H | |
writeFluentScalarField.C | Given a volScalarField and Fluent field identifier, write the field in Fluent data format |
writeFluentVectorField.C | Given a volVectorField and Fluent field identifier, write the field in Fluent data format |
► foamToEnsight | |
cellSets.H | |
checkData.H | |
checkMeshMoving.H | |
ensightAsciiStream.H | |
ensightBinaryStream.H | |
ensightCaseTail.H | |
ensightCloudField.C | |
ensightCloudField.H | |
ensightField.C | |
ensightField.H | |
ensightMesh.C | |
ensightMesh.H | |
ensightParticlePositions.C | |
ensightParticlePositions.H | |
ensightStream.H | |
faceSets.H | |
foamToEnsight.C | Translates OpenFOAM data to EnSight format |
itoa.C | |
itoa.H | |
► foamToEnsightParts | |
checkHasMovingMesh.H | |
ensightOutputCase.H | |
ensightOutputFunctions.C | |
ensightOutputFunctions.H | Miscellaneous collection of functions and template related to Ensight data |
findFields.H | |
foamToEnsightParts.C | Translates OpenFOAM data to Ensight format. An Ensight part is created for each cellZone and patch |
getTimeIndex.H | |
moveMesh.H | |
► foamToGMV | |
foamToGMV.C | Translates foam output to GMV readable files |
gmvOutput.H | |
gmvOutputHeader.H | |
gmvOutputLagrangian.H | |
gmvOutputSpray.H | |
gmvOutputTail.H | |
itoa.C | |
itoa.H | |
moveMesh.H | |
readConversionProperties.H | |
► foamToTecplot360 | |
foamToTecplot360.C | Tecplot binary file format writer |
readFields.C | |
readFields.H | |
tecplotWriter.C | |
tecplotWriter.H | |
tecplotWriterTemplates.C | |
► foamToTetDualMesh | |
foamToTetDualMesh.C | Converts polyMesh results to tetDualMesh |
► foamToVTK | |
► foamToVTK | |
► writeVTK | |
writeVTK.C | |
writeVTK.H | |
internalWriter.C | |
internalWriter.H | |
internalWriterTemplates.C | |
lagrangianWriter.C | |
lagrangianWriter.H | |
lagrangianWriterTemplates.C | |
patchWriter.C | |
patchWriter.H | |
patchWriterTemplates.C | |
readFields.C | |
readFields.H | |
surfaceMeshWriter.C | |
surfaceMeshWriter.H | |
surfaceMeshWriterTemplates.C | |
vtkMesh.C | |
vtkMesh.H | |
vtkTopo.C | Note: bug in vtk displaying wedges? Seems to display ok if we decompose them. Should be thoroughly tested! (they appear rarely in polyhedral meshes, do appear in some cut meshes) |
vtkTopo.H | |
vtkWriteFieldOps.H | |
vtkWriteFieldOpsTemplates.C | |
writeFaceSet.C | |
writeFaceSet.H | Write faceSet to vtk polydata file. Only one data which is original faceID |
writePointSet.C | |
writePointSet.H | Write pointSet to vtk polydata file. Only one data which is original pointID |
writeSurfFields.C | |
writeSurfFields.H | Write a patch with its data |
foamToVTK.C | Legacy VTK file format writer |
► smapToFoam | |
smapToFoam.C | Translates a STAR-CD SMAP data file into OpenFOAM field format |
► foamPostProcess | |
foamPostProcess.C | Execute the set of functionObjects specified in the selected dictionary (which defaults to system/controlDict) or on the command-line for the selected set of times on the selected set of fields |
► graphics | |
► ensightFoamReader | |
getFieldScalar.H | |
getFieldTensor.H | |
getFieldVector.H | |
getLagrangianScalar.H | |
getLagrangianVector.H | |
getPatchFieldScalar.H | |
getPatchFieldTensor.H | |
getPatchFieldVector.H | |
globalFoam.H | |
libuserd.C | EnSight library module to read OpenFOAM data directly without translation |
tensorConversion.H | |
USERD_API.H | |
USERD_bkup.H | |
USERD_exit_routine.H | |
USERD_get_border_availability.H | |
USERD_get_border_elements_by_type.H | |
USERD_get_changing_geometry_status.H | |
USERD_get_constant_val.H | |
USERD_get_dataset_query_file_info.H | |
USERD_get_descrip_lines.H | |
USERD_get_element_label_status.H | |
USERD_get_geom_timeset_number.H | |
USERD_get_gold_part_build_info.H | |
USERD_get_gold_variable_info.H | |
USERD_get_matf_set_info.H | |
USERD_get_matf_var_info.H | |
USERD_get_maxsize_info.H | |
USERD_get_model_extents.H | |
USERD_get_name_of_reader.H | |
USERD_get_nfaced_conn.H | |
USERD_get_nfaced_nodes_per_face.H | |
USERD_get_node_label_status.H | |
USERD_get_nsided_conn.H | |
USERD_get_num_of_time_steps.H | |
USERD_get_number_of_files_in_dataset.H | |
USERD_get_number_of_material_sets.H | |
USERD_get_number_of_materials.H | |
USERD_get_number_of_model_parts.H | |
USERD_get_number_of_variables.H | |
USERD_get_number_timesets.H | |
USERD_get_part_coords.H | |
USERD_get_part_element_ids_by_type.H | |
USERD_get_part_elements_by_type.H | |
USERD_get_part_node_ids.H | |
USERD_get_reader_release.H | |
USERD_get_reader_version.H | |
USERD_get_sol_times.H | |
USERD_get_timeset_description.H | |
USERD_get_var_by_component.H | |
USERD_get_var_value_at_specific.H | |
USERD_load_matf_data.H | |
USERD_set_filenames.H | |
USERD_set_server_number.H | |
USERD_set_time_set_and_step.H | |
USERD_size_matf_data.H | |
USERD_stop_part_building.H | |
USERD_structured_data.H | |
► PVReaders | |
► vtkPVblockMesh | |
vtkOpenFOAMPoints.H | |
vtkPVblockMesh.C | |
vtkPVblockMesh.H | |
vtkPVblockMeshConvert.C | |
vtkPVblockMeshUtils.C | Misc helper methods and utilities |
► vtkPVFoam | |
vtkOpenFOAMPoints.H | |
vtkOpenFOAMTupleRemap.H | |
vtkPVFoam.C | |
vtkPVFoam.H | |
vtkPVFoamAddToSelection.H | |
vtkPVFoamFields.C | |
vtkPVFoamLagrangianFields.H | |
vtkPVFoamMesh.C | |
vtkPVFoamMeshLagrangian.C | |
vtkPVFoamMeshSet.C | |
vtkPVFoamMeshVolume.C | |
vtkPVFoamMeshZone.C | |
vtkPVFoamPatchField.H | |
vtkPVFoamPointFields.H | |
vtkPVFoamSurfaceField.H | |
vtkPVFoamTemplates.C | |
vtkPVFoamUpdateInfo.C | |
vtkPVFoamUtils.C | Misc helper methods and utilities |
vtkPVFoamVolFields.H | |
► lagrangian | |
► particleTracks | |
createFields.H | |
particleTracks.C | Generates a VTK file of particle tracks for cases that were computed using a tracked-parcel-type cloud |
► steadyParticleTracks | |
createFields.H | |
steadyParticleTracks.C | Generates a VTK file of particle tracks for cases that were computed using a steady-state cloud NOTE: case must be re-constructed (if running in parallel) before use |
steadyParticleTracksTemplates.C | |
steadyParticleTracksTemplates.H | |
► miscellaneous | |
► engineCompRatio | |
engineCompRatio.C | Calculate the compression ratio of the engine combustion chamber |
► pdfPlot | |
createFields.H | |
pdfPlot.C | Generates a graph of a probability distribution function |
► temporalInterpolate | |
temporalInterpolate.C | Interpolate fields between time-steps e.g. for animation |
► noise | |
noise.C | Utility to perform noise analysis of pressure data using the noiseFFT library |
► preProcessing | |
► applyBoundaryLayer | |
applyBoundaryLayer.C | Apply a simplified boundary-layer model to the velocity and turbulence fields based on the 1/7th power-law |
createFields.H | |
► boxTurb | |
boxTurb.C | Makes a box of turbulence which conforms to a given energy spectrum and is divergence free |
createFields.H | |
readBoxTurbDict.H | |
► changeDictionary | |
changeDictionary.C | Utility to change dictionary entries, e.g. can be used to change the patch type in the field and polyMesh/boundary files |
► createExternalCoupledPatchGeometry | |
createExternalCoupledPatchGeometry.C | Application to generate the patch geometry (points and faces) for use with the externalCoupled boundary condition |
createExternalCoupledPatchGeometryTemplates.C | |
createExternalCoupledPatchGeometryTemplates.H | |
► dsmcInitialise | |
dsmcInitialise.C | Initialise a case for dsmcFoam by reading the initialisation dictionary system/dsmcInitialise |
► engineSwirl | |
createFields.H | |
engineSwirl.C | Generates a swirling flow for engine calculations |
► faceAgglomerate | |
faceAgglomerate.C | Agglomerate boundary faces using the pairPatchAgglomeration algorithm. It writes a map from the fine to coarse grid |
► foamSetupCHT | |
foamSetupCHT.C | This utility sets up a multi-region case using template files for material properties, field and system files |
► mapFields | |
createTimes.H | |
MapConsistentVolFields.H | |
mapFields.C | Maps volume fields from one mesh to another, reading and interpolating all fields present in the time directory of both cases. Parallel and non-parallel cases are handled without the need to reconstruct them first |
mapLagrangian.C | |
mapLagrangian.H | Maps lagrangian positions and fields |
MapLagrangianFields.H | Gets the indices of (source)particles that have been appended to the target cloud and maps the lagrangian fields accordingly |
mapMeshes.C | |
mapMeshes.H | |
MapVolFields.H | |
meshToMesh0.C | |
meshToMesh0.H | |
meshToMesh0Templates.C | |
setTimeIndex.H | |
UnMapped.H | |
► mapFieldsPar | |
createTimes.H | |
mapClouds.C | |
mapClouds.H | Maps Lagrangian clouds |
mapFieldsPar.C | Maps volume fields from one mesh to another, reading and interpolating all fields present in the time directory of both cases |
mapGeometricFields.C | |
mapGeometricFields.H | Maps geometric fields |
setTimeIndex.H | |
► mdInitialise | |
mdInitialise.C | Initialises fields for a molecular dynamics (MD) simulation |
► setAtmBoundaryLayer | |
setAtmBoundaryLayer.C | Applies atmospheric boundary layer models to the entire domain for case initialisation |
► setFields | |
setFields.C | Set values on a selected set of cells/patchfaces through a dictionary |
► setWaves | |
setWaves.C | Applies wave models to the entire domain for case initialisation using level sets for second-order accuracy |
► snappyHexMeshConfig | |
blockMeshCartesianConfiguration.C | |
blockMeshCartesianConfiguration.H | |
blockMeshConfigurationBase.C | |
blockMeshConfigurationBase.H | |
blockMeshCylindricalConfiguration.C | |
blockMeshCylindricalConfiguration.H | |
blockMeshFunctions.H | Functions for calculating the bounds and number of cells of a background mesh configured within a blockMeshDict file |
caseFileConfiguration.C | |
caseFileConfiguration.H | |
meshingSurface.C | |
meshingSurface.H | |
meshingSurfaceList.C | |
meshingSurfaceList.H | |
meshQualityConfiguration.C | |
meshQualityConfiguration.H | |
snappyHexMeshConfig.C | Preconfigures blockMeshDict, surfaceFeaturesDict and snappyHexMeshDict files based on the case surface geometry files |
snappyHexMeshConfiguration.C | |
snappyHexMeshConfiguration.H | |
surfaceFeaturesConfiguration.C | |
surfaceFeaturesConfiguration.H | |
► viewFactorsGen | |
searchingEngine.H | |
shootRays.H | |
viewFactorsGen.C | View factors are calculated based on a face agglomeration array (finalAgglom generated by faceAgglomerate utility) |
► surface | |
► surfaceAdd | |
surfaceAdd.C | Add two surfaces. Does geometric merge on points. Does not check for overlapping/intersecting triangles |
► surfaceAutoPatch | |
surfaceAutoPatch.C | Patches surface according to feature angle. Like autoPatch |
► surfaceBooleanFeatures | |
surfaceBooleanFeatures.C | Generates the extendedFeatureEdgeMesh for the interface between a boolean operation on two surfaces. Assumes that the orientation of the surfaces is correct: |
► surfaceCheck | |
surfaceCheck.C | Checks geometric and topological quality of a surface |
► surfaceClean | |
collapseBase.C | |
collapseBase.H | Routines collapse sliver triangles by splitting the base edge |
collapseEdge.C | |
collapseEdge.H | Routines to collapse small edges |
surfaceClean.C | |
► surfaceCoarsen | |
► bunnylod | |
bunnygut.C | |
progmesh.C | |
vector.C | |
winmain.C | |
surfaceCoarsen.C | Surface coarsening using 'bunnylod': |
► surfaceConvert | |
surfaceConvert.C | Converts from one surface mesh format to another |
► surfaceFeatureConvert | |
surfaceFeatureConvert.C | Convert between edgeMesh formats |
► surfaceFeatures | |
surfaceFeatures.C | Identifies features in a surface geometry and writes them to file, based on control parameters specified by the user |
► surfaceFind | |
surfaceFind.C | Finds nearest face and vertex |
► surfaceHookUp | |
surfaceHookUp.C | Find close open edges and stitches the surface along them |
► surfaceInertia | |
surfaceInertia.C | Calculates the inertia tensor, principal axes and moments of a command line specified triSurface. Inertia can either be of the solid body or of a thin shell |
► surfaceLambdaMuSmooth | |
surfaceLambdaMuSmooth.C | Smooths a surface using lambda/mu smoothing |
► surfaceMeshConvert | |
surfaceMeshConvert.C | Converts between surface formats with optional scaling or transformations (rotate/translate) on a coordinateSystem |
► surfaceMeshExport | |
surfaceMeshExport.C | Export from surfMesh to various third-party surface formats with optional scaling or transformations (rotate/translate) on a coordinateSystem |
► surfaceMeshImport | |
surfaceMeshImport.C | Import from various third-party surface formats into surfMesh with optional scaling or transformations (rotate/translate) on a coordinateSystem |
► surfaceMeshInfo | |
surfaceMeshInfo.C | Miscellaneous information about surface meshes |
► surfaceMeshTriangulate | |
surfaceMeshTriangulate.C | Extracts surface from a polyMesh. Depending on output surface format triangulates faces |
► surfaceOrient | |
surfaceOrient.C | Set normal consistent with respect to a user provided 'outside' point. If the -inside option is used the point is considered inside |
► surfacePointMerge | |
surfacePointMerge.C | Merges points on surface if they are within absolute distance. Since absolute distance use with care! |
► surfaceRedistributePar | |
surfaceRedistributePar.C | (Re)distribution of triSurface. Either takes an undecomposed surface or an already decomposed surface and redistributes it so that each processor has all triangles that overlap its mesh |
► surfaceRefineRedGreen | |
surfaceRefineRedGreen.C | Refine by splitting all three edges of triangle ('red' refinement). Neighbouring triangles (which are not marked for refinement get split in half ('green' refinement). (R. Verfuerth, "A review of a posteriori
error estimation and adaptive mesh refinement techniques", Wiley-Teubner, 1996) |
► surfaceSplitByPatch | |
surfaceSplitByPatch.C | Writes regions of triSurface to separate files |
► surfaceSplitByTopology | |
surfaceSplitByTopology.C | Strips any baffle parts of a surface. A baffle region is one which is reached by walking from an open edge, and stopping when a multiply connected edge is reached |
► surfaceSplitNonManifolds | |
surfaceSplitNonManifolds.C | Takes multiply connected surface and tries to split surface at multiply connected edges by duplicating points. Introduces concept of |
► surfaceSubset | |
surfaceSubset.C | A surface analysis tool which sub-sets the triSurface to choose only a part of interest. Based on subsetMesh |
► surfaceToPatch | |
surfaceToPatch.C | Reads surface and applies surface regioning to a mesh. Uses repatchMesh to do the hard work |
► surfaceTransformPoints | |
surfaceTransformPoints.C | Transform (translate, rotate, scale) a surface |
► thermophysical | |
► adiabaticFlameT | |
adiabaticFlameT.C | Calculates the adiabatic flame temperature for a given fuel over a range of unburnt temperatures and equivalence ratios |
► chemkinToFoam | |
► chemkinReader | |
chemkinReader.C | |
chemkinReader.H | |
ReactionProxy.C | |
ReactionProxy.H | |
chemkinToFoam.C | Converts CHEMKINIII thermodynamics and reaction data files into OpenFOAM format |
► equilibriumCO | |
equilibriumCO.C | Calculates the equilibrium level of carbon monoxide |
► equilibriumFlameT | |
equilibriumFlameT.C | Calculates the equilibrium flame temperature for a given fuel and pressure for a range of unburnt gas temperatures and equivalence ratios; the effects of dissociation on O2, H2O and CO2 are included |
► mixtureAdiabaticFlameT | |
mixture.H | |
mixtureAdiabaticFlameT.C | Calculates the adiabatic flame temperature for a given mixture at a given temperature |
substance.H | |
▼ src | |
► atmosphericModels | |
► derivedFvPatchFields | |
► atmBoundaryLayer | |
atmBoundaryLayer.C | |
atmBoundaryLayer.H | |
► atmBoundaryLayerInletEpsilon | |
atmBoundaryLayerInletEpsilonFvPatchScalarField.C | |
atmBoundaryLayerInletEpsilonFvPatchScalarField.H | |
► atmBoundaryLayerInletK | |
atmBoundaryLayerInletKFvPatchScalarField.C | |
atmBoundaryLayerInletKFvPatchScalarField.H | |
► atmBoundaryLayerInletVelocity | |
atmBoundaryLayerInletVelocityFvPatchVectorField.C | |
atmBoundaryLayerInletVelocityFvPatchVectorField.H | |
► nutkAtmRoughWallFunction | |
nutkAtmRoughWallFunctionFvPatchScalarField.C | |
nutkAtmRoughWallFunctionFvPatchScalarField.H | |
► kEpsilonLopesdaCosta | |
kEpsilonLopesdaCosta.C | |
kEpsilonLopesdaCosta.H | |
► porosityModels | |
► powerLawLopesdaCosta | |
powerLawLopesdaCosta.C | |
powerLawLopesdaCosta.H | |
powerLawLopesdaCostaTemplates.C | |
atmosphericTurbulentTransportModels.C | |
► combustionModels | |
► combustionModel | |
combustionModel.C | |
combustionModel.H | |
combustionModelI.H | |
combustionModelNew.C | |
► diffusion | |
diffusion.C | |
diffusion.H | |
► EDC | |
EDC.C | |
EDC.H | |
► FSD | |
► reactionRateFlameAreaModels | |
► consumptionSpeed | |
consumptionSpeed.C | |
consumptionSpeed.H | |
► reactionRateFlameArea | |
reactionRateFlameArea.C | |
reactionRateFlameArea.H | |
reactionRateFlameAreaNew.C | |
► relaxation | |
relaxation.C | |
relaxation.H | |
FSD.C | |
FSD.H | |
► functionObjects | |
► adjustTimeStepToCombustion | |
adjustTimeStepToCombustion.C | |
adjustTimeStepToCombustion.H | |
► Qdot | |
Qdot.C | |
Qdot.H | |
► infinitelyFastChemistry | |
infinitelyFastChemistry.C | |
infinitelyFastChemistry.H | |
► laminar | |
laminar.C | |
laminar.H | |
► noCombustion | |
noCombustion.C | |
noCombustion.H | |
► PaSR | |
PaSR.C | |
PaSR.H | |
► radiationModels | |
► absorptionEmissionModels | |
► greyMeanCombustion | |
greyMeanCombustion.C | |
greyMeanCombustion.H | |
► wideBandCombustion | |
wideBandCombustion.C | |
wideBandCombustion.H | |
► sootModels | |
► mixtureFraction | |
mixtureFraction.C | |
mixtureFraction.H | |
► singleStepCombustion | |
singleStepCombustion.C | |
singleStepCombustion.H | |
singleStepCombustionI.H | |
► zoneCombustion | |
zoneCombustion.C | |
zoneCombustion.H | |
► conversion | |
► mergedCyclic | |
mergedCyclicPolyPatch.C | |
mergedCyclicPolyPatch.H | |
polyMeshUnMergeCyclics.C | |
polyMeshUnMergeCyclics.H | |
► meshReader | |
► starcd | |
STARCDMeshReader.C | |
STARCDMeshReader.H | |
calcPointCells.C | Calculate point cells - ie, the cells attached to each point |
createPolyBoundary.C | Boundary faces |
createPolyCells.C | Create cellPolys |
meshReader.C | |
meshReader.H | |
meshReaderAux.C | |
► meshTables | |
boundaryRegion.C | |
boundaryRegion.H | |
cellTable.C | |
cellTable.H | |
dictionaryIOMap.C | Map of dictionaries with IO |
► meshWriter | |
► starcd | |
STARCDMeshWriter.C | |
STARCDMeshWriter.H | |
meshWriter.C | |
meshWriter.H | |
► polyDualMesh | |
polyDualMesh.H | |
► dummyThirdParty | |
► metis | |
dummyMetis.C | |
► MGridGen | |
dummyMGridGen.C | |
► ptscotch | |
dummyPtscotch.C | |
► scotch | |
dummyScotch.C | |
► fileFormats | |
► nas | |
NASCore.C | |
NASCore.H | |
► obj | |
OBJstream.C | |
OBJstream.H | |
► starcd | |
STARCDCore.C | |
STARCDCore.H | |
► vtk | |
vtkUnstructuredReader.C | |
vtkUnstructuredReader.H | |
vtkUnstructuredReaderTemplates.C | |
vtkWriteOps.C | |
vtkWriteOps.H | |
vtkWriteOpsI.H | |
vtkWriteOpsTemplates.C | |
vtkWritePolyData.H | |
vtkWritePolyDataTemplates.C | |
► finiteVolume | |
► algorithms | |
► FvFaceCellWave | |
FvFaceCellWave.C | |
FvFaceCellWave.H | |
FvFaceCellWaveName.C | |
► cfdTools | |
► compressible | |
compressibleCourantNo.H | Calculates and outputs the mean and maximum Courant Numbers |
compressibleCreatePhi.H | Creates and initialises the face-flux field phi |
rhoEqn.H | Solve the continuity for density |
► general | |
► adjustPhi | |
adjustPhi.C | |
adjustPhi.H | For cases which do no have a pressure boundary adjust the balance of fluxes to obey continuity. Return true if the domain is closed |
► bound | |
bound.C | |
bound.H | Bound the given scalar field where it is below the specified minimum |
► buoyancy | |
buoyancy.C | |
buoyancy.H | |
► constrainHbyA | |
constrainHbyA.C | |
constrainHbyA.H | |
► constrainPressure | |
constrainPressure.C | |
constrainPressure.H | |
► correctPhi | |
CorrectPhi.C | |
CorrectPhi.H | Flux correction functions to ensure continuity |
correctUphiBCs.C | |
fvCorrectPhi.C | |
fvCorrectPhi.H | Flux correction functions to ensure continuity |
► findRefCell | |
findRefCell.C | |
findRefCell.H | Find the reference cell nearest (in index) to the given cell but which is not on a cyclic, symmetry or processor patch |
► fvConstraints | |
► includeFvConstraintEntry | |
includeFvConstraintEntry.C | |
includeFvConstraintEntry.H | |
fvConstraint.C | |
fvConstraint.H | |
fvConstraintI.H | |
fvConstraintM.H | |
fvConstraints.C | |
fvConstraints.H | |
fvConstraintsTemplates.C | |
► fvModels | |
► includeFvModelEntry | |
includeFvModelEntry.C | |
includeFvModelEntry.H | |
fvModel.C | |
fvModel.H | |
fvModelI.H | |
fvModelM.H | |
fvModels.C | |
fvModels.H | |
fvModelsTemplates.C | |
fvModelTemplates.C | |
► fvSource | |
fvSource.C | |
fvSource.H | |
fvSpecificSource.C | |
fvSpecificSource.H | |
fvSpecificSourceTemplates.C | |
fvTotalSource.C | |
fvTotalSource.H | |
fvTotalSourceI.H | |
fvTotalSourceTemplates.C | |
► include | |
createDyMControls.H | |
createFvConstraints.H | |
createFvModels.H | |
createMRF.H | |
createPimpleControl.H | |
createPisoControl.H | |
createSimpleControl.H | |
createTimeControls.H | Read the control parameters used by setDeltaT |
initContinuityErrs.H | Declare and initialise the cumulative continuity error |
readDyMControls.H | |
readGravitationalAcceleration.H | |
readTimeControls.H | Read the control parameters used by setDeltaT |
setDeltaT.H | Reset the timestep to maintain a constant maximum courant Number. Reduction of time-step is immediate, but increase is damped to avoid unstable oscillations |
setInitialDeltaT.H | Set the initial timestep corresponding to the timestep adjustment algorithm in setDeltaT but only if it would reduce the timestep |
volContinuity.H | |
► levelSet | |
levelSet.C | |
levelSet.H | |
levelSetTemplates.C | |
► MRF | |
► derivedFvPatchFields | |
► MRFFreestreamVelocity | |
MRFFreestreamVelocityFvPatchVectorField.C | |
MRFFreestreamVelocityFvPatchVectorField.H | |
► MRFnoSlip | |
MRFnoSlipFvPatchVectorField.C | |
MRFnoSlipFvPatchVectorField.H | |
► MRFPatchField | |
MRFPatchField.C | |
MRFPatchField.H | |
► MRFslip | |
MRFslipFvPatchVectorField.C | |
MRFslipFvPatchVectorField.H | |
IOMRFZoneList.C | |
IOMRFZoneList.H | |
MRFZone.C | |
MRFZone.H | |
MRFZoneI.H | |
MRFZoneList.C | |
MRFZoneList.H | |
MRFZoneTemplates.C | |
► porosityModel | |
► DarcyForchheimer | |
DarcyForchheimer.C | |
DarcyForchheimer.H | |
DarcyForchheimerTemplates.C | |
► fixedCoeff | |
fixedCoeff.C | |
fixedCoeff.H | |
► porosityModel | |
IOporosityModelList.C | |
IOporosityModelList.H | |
porosityModel.C | |
porosityModel.H | |
porosityModelI.H | |
porosityModelList.C | |
porosityModelList.H | |
porosityModelNew.C | |
► powerLaw | |
powerLaw.C | |
powerLaw.H | |
powerLawTemplates.C | |
► solidification | |
solidification.C | |
solidification.H | |
solidificationTemplates.C | |
► pressureReference | |
pressureReference.C | |
pressureReference.H | |
pressureReferenceI.H | |
► solutionControl | |
► convergenceControl | |
► convergenceControl | |
convergenceControl.C | |
convergenceControl.H | |
convergenceControlTemplates.C | |
► correctorConvergenceControl | |
correctorConvergenceControl.C | |
correctorConvergenceControl.H | |
correctorConvergenceControlTemplates.C | |
► singleRegionConvergenceControl | |
singleRegionConvergenceControl.C | |
singleRegionConvergenceControl.H | |
► singleRegionCorrectorConvergenceControl | |
singleRegionCorrectorConvergenceControl.C | |
singleRegionCorrectorConvergenceControl.H | |
► pimpleControl | |
► pimpleControl | |
pimpleControl.C | |
pimpleControl.H | |
► pimpleLoop | |
pimpleLoop.C | |
pimpleLoop.H | |
pimpleLoopI.H | |
► pimpleMultiRegionControl | |
pimpleMultiRegionControl.C | |
pimpleMultiRegionControl.H | |
pimpleMultiRegionControlI.H | |
► pimpleNoLoopControl | |
pimpleNoLoopControl.C | |
pimpleNoLoopControl.H | |
pimpleNoLoopControlI.H | |
► pimpleSingleRegionControl | |
pimpleSingleRegionControl.C | |
pimpleSingleRegionControl.H | |
pimpleSingleRegionControlI.H | |
► pisoControl | |
pisoControl.C | |
pisoControl.H | |
pisoControlI.H | |
► simpleControl | |
simpleControl.C | |
simpleControl.H | |
► solutionControl | |
► fluidSolutionControl | |
fluidSolutionControl.C | |
fluidSolutionControl.H | |
fluidSolutionControlI.H | |
► multiRegionSolutionControl | |
multiRegionSolutionControl.C | |
multiRegionSolutionControl.H | |
► nonOrthogonalSolutionControl | |
nonOrthogonalSolutionControl.C | |
nonOrthogonalSolutionControl.H | |
nonOrthogonalSolutionControlI.H | |
► singleRegionSolutionControl | |
singleRegionSolutionControl.C | |
singleRegionSolutionControl.H | |
singleRegionSolutionControlI.H | |
singleRegionSolutionControlTemplates.C | |
createControl.H | |
► surfaceToVolVelocity | |
surfaceToVolVelocity.C | |
surfaceToVolVelocity.H | Return the vol-field velocity corresponding to a given surface-field velocity |
► incompressible | |
continuityErrs.H | Calculates and prints the continuity errors |
CourantNo.H | Calculates and outputs the mean and maximum Courant Numbers |
createPhi.H | Creates and initialises the relative face-flux field phi |
► fields | |
► fvFieldSources | |
► derived | |
► internal | |
internalFvFieldSource.C | |
internalFvFieldSource.H | |
internalFvFieldSources.C | |
internalFvFieldSources.H | |
internalFvFieldSourcesFwd.H | |
► turbulentIntensityKineticEnergy | |
turbulentIntensityKineticEnergyFvScalarFieldSource.C | |
turbulentIntensityKineticEnergyFvScalarFieldSource.H | |
► uniformFixedValue | |
uniformFixedValueFvFieldSource.C | |
uniformFixedValueFvFieldSource.H | |
uniformFixedValueFvFieldSources.C | |
uniformFixedValueFvFieldSources.H | |
uniformFixedValueFvFieldSourcesFwd.H | |
► uniformInletOutlet | |
uniformInletOutletFvFieldSource.C | |
uniformInletOutletFvFieldSource.H | |
uniformInletOutletFvFieldSources.C | |
uniformInletOutletFvFieldSources.H | |
uniformInletOutletFvFieldSourcesFwd.H | |
► fvFieldSource | |
fvFieldSource.C | |
fvFieldSource.H | |
fvFieldSources.C | |
fvFieldSources.H | |
fvFieldSourcesFwd.H | |
► fvPatchFields | |
► basic | |
► basicSymmetry | |
basicSymmetryFvPatchField.C | |
basicSymmetryFvPatchField.H | |
basicSymmetryFvPatchFields.H | |
basicSymmetryFvPatchScalarField.C | |
► calculated | |
calculatedFvPatchField.C | |
calculatedFvPatchField.H | |
calculatedFvPatchFields.C | |
calculatedFvPatchFields.H | |
calculatedFvPatchFieldsFwd.H | |
► coupled | |
coupledFvPatchField.C | |
coupledFvPatchField.H | |
coupledFvPatchFields.C | |
coupledFvPatchFields.H | |
coupledFvPatchFieldsFwd.H | |
► directionMixed | |
directionMixedFvPatchField.C | |
directionMixedFvPatchField.H | |
directionMixedFvPatchFields.C | |
directionMixedFvPatchFields.H | |
directionMixedFvPatchFieldsFwd.H | |
► extrapolatedCalculated | |
extrapolatedCalculatedFvPatchField.C | |
extrapolatedCalculatedFvPatchField.H | |
extrapolatedCalculatedFvPatchFields.C | |
extrapolatedCalculatedFvPatchFields.H | |
extrapolatedCalculatedFvPatchFieldsFwd.H | |
► fixedGradient | |
fixedGradientFvPatchField.C | |
fixedGradientFvPatchField.H | |
fixedGradientFvPatchFields.C | |
fixedGradientFvPatchFields.H | |
fixedGradientFvPatchFieldsFwd.H | |
► fixedValue | |
fixedValueFvPatchField.C | |
fixedValueFvPatchField.H | |
fixedValueFvPatchFields.C | |
fixedValueFvPatchFields.H | |
fixedValueFvPatchFieldsFwd.H | |
► mixed | |
mixedFvPatchField.C | |
mixedFvPatchField.H | |
mixedFvPatchFields.C | |
mixedFvPatchFields.H | |
mixedFvPatchFieldsFwd.H | |
► sliced | |
slicedFvPatchField.C | |
slicedFvPatchField.H | |
slicedFvPatchFields.C | |
slicedFvPatchFields.H | |
slicedFvPatchFieldsFwd.H | |
► transform | |
transformFvPatchField.C | |
transformFvPatchField.H | |
transformFvPatchFields.C | |
transformFvPatchFields.H | |
transformFvPatchFieldsFwd.H | |
transformFvPatchScalarField.C | |
► zeroGradient | |
zeroGradientFvPatchField.C | |
zeroGradientFvPatchField.H | |
zeroGradientFvPatchFields.C | |
zeroGradientFvPatchFields.H | |
zeroGradientFvPatchFieldsFwd.H | |
► constraint | |
► cyclic | |
cyclicFvPatchField.C | |
cyclicFvPatchField.H | |
cyclicFvPatchFields.C | |
cyclicFvPatchFields.H | |
cyclicFvPatchFieldsFwd.H | |
► cyclicSlip | |
cyclicSlipFvPatchField.C | |
cyclicSlipFvPatchField.H | |
cyclicSlipFvPatchFields.C | |
cyclicSlipFvPatchFields.H | |
cyclicSlipFvPatchFieldsFwd.H | |
► empty | |
emptyFvPatchField.C | |
emptyFvPatchField.H | |
emptyFvPatchFields.C | |
emptyFvPatchFields.H | |
emptyFvPatchFieldsFwd.H | |
► internal | |
internalFvPatchField.C | |
internalFvPatchField.H | |
internalFvPatchFields.C | |
internalFvPatchFields.H | |
internalFvPatchFieldsFwd.H | |
► jumpCyclic | |
jumpCyclicFvPatchField.C | |
jumpCyclicFvPatchField.H | |
jumpCyclicFvPatchFields.C | |
jumpCyclicFvPatchFields.H | |
jumpCyclicFvPatchFieldsFwd.H | |
► nonConformalCyclic | |
nonConformalCyclicFvPatchField.C | |
nonConformalCyclicFvPatchField.H | |
nonConformalCyclicFvPatchFields.C | |
nonConformalCyclicFvPatchFields.H | |
nonConformalCyclicFvPatchFieldsFwd.H | |
► nonConformalError | |
nonConformalErrorFvPatchField.C | |
nonConformalErrorFvPatchField.H | |
nonConformalErrorFvPatchFields.C | |
nonConformalErrorFvPatchFields.H | |
nonConformalErrorFvPatchFieldsFwd.H | |
► nonConformalProcessorCyclic | |
nonConformalProcessorCyclicFvPatchField.C | |
nonConformalProcessorCyclicFvPatchField.H | |
nonConformalProcessorCyclicFvPatchFields.C | |
nonConformalProcessorCyclicFvPatchFields.H | |
nonConformalProcessorCyclicFvPatchFieldsFwd.H | |
► processor | |
processorFvPatchField.C | |
processorFvPatchField.H | |
processorFvPatchFields.C | |
processorFvPatchFields.H | |
processorFvPatchFieldsFwd.H | |
processorFvPatchScalarField.C | |
processorFvPatchScalarField.H | |
► processorCyclic | |
processorCyclicFvPatchField.C | |
processorCyclicFvPatchField.H | |
processorCyclicFvPatchFields.C | |
processorCyclicFvPatchFields.H | |
processorCyclicFvPatchFieldsFwd.H | |
► symmetry | |
symmetryFvPatchField.C | |
symmetryFvPatchField.H | |
symmetryFvPatchFields.C | |
symmetryFvPatchFields.H | |
symmetryFvPatchFieldsFwd.H | |
► symmetryPlane | |
symmetryPlaneFvPatchField.C | |
symmetryPlaneFvPatchField.H | |
symmetryPlaneFvPatchFields.C | |
symmetryPlaneFvPatchFields.H | |
symmetryPlaneFvPatchFieldsFwd.H | |
symmetryPlaneFvPatchScalarField.C | |
► wedge | |
wedgeFvPatchField.C | |
wedgeFvPatchField.H | |
wedgeFvPatchFields.C | |
wedgeFvPatchFields.H | |
wedgeFvPatchFieldsFwd.H | |
wedgeFvPatchScalarField.C | |
► derived | |
► advective | |
advectiveFvPatchField.C | |
advectiveFvPatchField.H | |
advectiveFvPatchFields.C | |
advectiveFvPatchFields.H | |
advectiveFvPatchFieldsFwd.H | |
► codedFixedValue | |
codedFixedValueFvPatchField.C | |
codedFixedValueFvPatchField.H | |
codedFixedValueFvPatchFields.C | |
codedFixedValueFvPatchFields.H | |
codedFixedValueFvPatchFieldsFwd.H | |
► codedMixed | |
codedMixedFvPatchField.C | |
codedMixedFvPatchField.H | |
codedMixedFvPatchFields.C | |
codedMixedFvPatchFields.H | |
codedMixedFvPatchFieldsFwd.H | |
► dynamicPressure | |
dynamicPressureFvPatchScalarField.C | |
dynamicPressureFvPatchScalarField.H | |
► entrainmentPressure | |
entrainmentPressureFvPatchScalarField.C | |
entrainmentPressureFvPatchScalarField.H | |
► externalCoupledMixed | |
externalCoupledMixedFvPatchField.C | |
externalCoupledMixedFvPatchField.H | |
externalCoupledMixedFvPatchFields.C | |
externalCoupledMixedFvPatchFields.H | |
externalCoupledMixedFvPatchFieldsFwd.H | |
► fanPressure | |
fanPressureFvPatchScalarField.C | |
fanPressureFvPatchScalarField.H | |
► fanPressureJump | |
fanPressureJumpFvPatchScalarField.C | |
fanPressureJumpFvPatchScalarField.H | |
► fixedFluxExtrapolatedPressure | |
fixedFluxExtrapolatedPressureFvPatchScalarField.C | |
fixedFluxExtrapolatedPressureFvPatchScalarField.H | |
► fixedFluxPressure | |
fixedFluxPressureFvPatchScalarField.C | |
fixedFluxPressureFvPatchScalarField.H | |
► fixedInternalValue | |
fixedInternalValueFvPatchField.C | |
fixedInternalValueFvPatchField.H | |
fixedInternalValueFvPatchFields.C | |
fixedInternalValueFvPatchFields.H | |
► fixedJump | |
fixedJumpFvPatchField.C | |
fixedJumpFvPatchField.H | |
fixedJumpFvPatchFields.C | |
fixedJumpFvPatchFields.H | |
fixedJumpFvPatchFieldsFwd.H | |
► fixedMean | |
fixedMeanFvPatchField.C | |
fixedMeanFvPatchField.H | |
fixedMeanFvPatchFields.C | |
fixedMeanFvPatchFields.H | |
fixedMeanFvPatchFieldsFwd.H | |
► fixedMeanOutletInlet | |
fixedMeanOutletInletFvPatchField.C | |
fixedMeanOutletInletFvPatchField.H | |
fixedMeanOutletInletFvPatchFields.C | |
fixedMeanOutletInletFvPatchFields.H | |
fixedMeanOutletInletFvPatchFieldsFwd.H | |
► fixedNormalInletOutletVelocity | |
fixedNormalInletOutletVelocityFvPatchVectorField.C | |
fixedNormalInletOutletVelocityFvPatchVectorField.H | |
► fixedNormalSlip | |
fixedNormalSlipFvPatchField.C | |
fixedNormalSlipFvPatchField.H | |
fixedNormalSlipFvPatchFields.C | |
fixedNormalSlipFvPatchFields.H | |
fixedNormalSlipFvPatchFieldsFwd.H | |
► fixedPressureCompressibleDensity | |
fixedPressureCompressibleDensityFvPatchScalarField.C | |
fixedPressureCompressibleDensityFvPatchScalarField.H | |
► fixedProfile | |
fixedProfileFvPatchField.C | |
fixedProfileFvPatchField.H | |
fixedProfileFvPatchFields.C | |
fixedProfileFvPatchFields.H | |
fixedProfileFvPatchFieldsFwd.H | |
► fixedValueInletOutlet | |
fixedValueInletOutletFvPatchField.C | |
fixedValueInletOutletFvPatchField.H | |
fixedValueInletOutletFvPatchFields.C | |
fixedValueInletOutletFvPatchFields.H | |
fixedValueInletOutletFvPatchFieldsFwd.H | |
► flowRateInletVelocity | |
► laminarBL | |
laminarBL.C | |
laminarBL.H | |
laminarBLI.H | |
► turbulentBL | |
turbulentBL.C | |
turbulentBL.H | |
turbulentBLI.H | |
flowRateInletVelocityFvPatchVectorField.C | |
flowRateInletVelocityFvPatchVectorField.H | |
► flowRateOutletVelocity | |
flowRateOutletVelocityFvPatchVectorField.C | |
flowRateOutletVelocityFvPatchVectorField.H | |
► fluxCorrectedVelocity | |
fluxCorrectedVelocityFvPatchVectorField.C | |
fluxCorrectedVelocityFvPatchVectorField.H | |
► freestream | |
freestreamFvPatchField.C | |
freestreamFvPatchField.H | |
freestreamFvPatchFields.C | |
freestreamFvPatchFields.H | |
freestreamFvPatchFieldsFwd.H | |
► freestreamPressure | |
freestreamPressureFvPatchScalarField.C | |
freestreamPressureFvPatchScalarField.H | |
► freestreamVelocity | |
freestreamVelocityFvPatchVectorField.C | |
freestreamVelocityFvPatchVectorField.H | |
► inletOutlet | |
inletOutletFvPatchField.C | |
inletOutletFvPatchField.H | |
inletOutletFvPatchFields.C | |
inletOutletFvPatchFields.H | |
inletOutletFvPatchFieldsFwd.H | |
► inletOutletTotalTemperature | |
inletOutletTotalTemperatureFvPatchScalarField.C | |
inletOutletTotalTemperatureFvPatchScalarField.H | |
► interfaceCompression | |
interfaceCompressionFvPatchScalarField.C | |
interfaceCompressionFvPatchScalarField.H | |
► interstitialInletVelocity | |
interstitialInletVelocityFvPatchVectorField.C | |
interstitialInletVelocityFvPatchVectorField.H | |
► mappedFlowRateVelocity | |
mappedFlowRateVelocityFvPatchVectorField.C | |
mappedFlowRateVelocityFvPatchVectorField.H | |
► mappedInternalValue | |
mappedInternalValueFvPatchField.C | |
mappedInternalValueFvPatchField.H | |
mappedInternalValueFvPatchFields.C | |
mappedInternalValueFvPatchFields.H | |
mappedInternalValueFvPatchFieldsFwd.H | |
► mappedValue | |
mappedValueFvPatchField.C | |
mappedValueFvPatchField.H | |
mappedValueFvPatchFields.C | |
mappedValueFvPatchFields.H | |
mappedValueFvPatchFieldsFwd.H | |
► mappedVelocityFlux | |
mappedVelocityFluxFvPatchField.C | |
mappedVelocityFluxFvPatchField.H | |
► matchedFlowRateOutletVelocity | |
matchedFlowRateOutletVelocityFvPatchVectorField.C | |
matchedFlowRateOutletVelocityFvPatchVectorField.H | |
► movingMappedWallVelocity | |
movingMappedWallVelocityFvPatchVectorField.C | |
movingMappedWallVelocityFvPatchVectorField.H | |
► movingWallSlipVelocity | |
movingWallSlipVelocityFvPatchVectorField.C | |
movingWallSlipVelocityFvPatchVectorField.H | |
► movingWallVelocity | |
movingWallVelocityFvPatchVectorField.C | |
movingWallVelocityFvPatchVectorField.H | |
► noSlip | |
noSlipFvPatchVectorField.C | |
noSlipFvPatchVectorField.H | |
► outletInlet | |
outletInletFvPatchField.C | |
outletInletFvPatchField.H | |
outletInletFvPatchFields.C | |
outletInletFvPatchFields.H | |
outletInletFvPatchFieldsFwd.H | |
► outletMappedUniformInlet | |
outletMappedUniformInletFvPatchField.C | |
outletMappedUniformInletFvPatchField.H | |
outletMappedUniformInletFvPatchFields.C | |
outletMappedUniformInletFvPatchFields.H | |
outletMappedUniformInletFvPatchFieldsFwd.H | |
► outletPhaseMeanVelocity | |
outletPhaseMeanVelocityFvPatchVectorField.C | |
outletPhaseMeanVelocityFvPatchVectorField.H | |
► partialSlip | |
partialSlipFvPatchField.C | |
partialSlipFvPatchField.H | |
partialSlipFvPatchFields.C | |
partialSlipFvPatchFields.H | |
partialSlipFvPatchFieldsFwd.H | |
► phaseHydrostaticPressure | |
phaseHydrostaticPressureFvPatchScalarField.C | |
phaseHydrostaticPressureFvPatchScalarField.H | |
► plenumPressure | |
plenumPressureFvPatchScalarField.C | |
plenumPressureFvPatchScalarField.H | |
► pressure | |
pressureFvPatchScalarField.C | |
pressureFvPatchScalarField.H | |
► pressureDirectedInletOutletVelocity | |
pressureDirectedInletOutletVelocityFvPatchVectorField.C | |
pressureDirectedInletOutletVelocityFvPatchVectorField.H | |
► pressureDirectedInletVelocity | |
pressureDirectedInletVelocityFvPatchVectorField.C | |
pressureDirectedInletVelocityFvPatchVectorField.H | |
► pressureInletOutletParSlipVelocity |