OpenQBMM  -dev
An open-source implementation of Quadrature-Based Moment Methods
File List
Here is a list of all files with brief descriptions:
 aggregationKernel.C
 aggregationKernel.H
 AGmomentTransportModel.C
 AGmomentTransportModel.H
 Alopaeus.C
 Alopaeus.H
 alphaAndDiameter.C
 alphaAndDiameter.H
 alphaEqn.H
 alphaG0.C
 alphaG0.H
 anisotropicGaussian.C
 anisotropicGaussian.H
 anisotropicGaussianModels.C
 Antal.C
 Antal.H
 aspectRatioModel.C
 aspectRatioModel.H
 AyaziShamlou.C
 AyaziShamlou.H
 basicFieldMomentInversion.C
 basicFieldMomentInversion.H
 BeisheuvelBubblePressure.C
 BeisheuvelBubblePressure.H
 betaEQMOM.C
 betaEQMOM.H
 BlendedInterfacialModel.C
 BlendedInterfacialModel.H
 blendingMethod.C
 blendingMethod.H
 breakupKernel.C
 breakupKernel.H
 Brownian.C
 Brownian.H
 bubbleBreakupKernel.C
 bubbleBreakupKernel.H
 bubblePressureModel.C
 bubblePressureModel.H
 buoyantPbePimpleFoam.CTransient solver for buoyant, turbulent flow of compressible fluids with solution of population balance
 Burns.C
 Burns.H
 CarnahanStarlingRadial.C
 CarnahanStarlingRadial.H
 Chesters.C
 Chesters.H
 coalescenceEfficiencyKernel.C
 coalescenceEfficiencyKernel.H
 coalescenceFrequencyKernel.C
 coalescenceFrequencyKernel.H
 coalescenceKernel.C
 coalescenceKernel.H
 conditionalMomentInversion.C
 conditionalMomentInversion.H
 conditionalMomentInversionI.H
 conductivityModel.C
 conductivityModel.H
 constant.C
 constant.H
 constantAggregation.C
 constantAggregation.H
 constantAspectRatio.C
 constantAspectRatio.H
 constantBreakup.C
 constantBreakup.H
 constantGrowth.C
 constantGrowth.H
 constantLiftCoefficient.C
 constantLiftCoefficient.H
 constantTurbulentDispersionCoefficient.C
 constantTurbulentDispersionCoefficient.H
 constantVirtualMassCoefficient.C
 constantVirtualMassCoefficient.H
 denseAGFoam/contErrs.H
 polydisperseBubbleFoam/contErrs.H
 denseAGFoam/correctContErrs.H
 polydisperseBubbleFoam/correctContErrs.H
 cosineWallDamping.C
 cosineWallDamping.H
 coalescenceEfficiencyKernels/CoulaloglouAndTavlarides/CoulaloglouAndTavlarides.C
 coalescenceFrequencyKernels/CoulaloglouAndTavlarides/CoulaloglouAndTavlarides.C
 coalescenceEfficiencyKernels/CoulaloglouAndTavlarides/CoulaloglouAndTavlarides.H
 coalescenceFrequencyKernels/CoulaloglouAndTavlarides/CoulaloglouAndTavlarides.H
 buoyantPbePimpleFoam/CourantNos.H
 mixingTransportFoam/CourantNos.H
 multiphase/denseAGFoam/CourantNos.H
 multiphase/polydisperseBubbleFoam/CourantNos.H
 pbeTransportFoam/CourantNos.H
 denseAGFoam/pU/createDDtU.H
 polydisperseBubbleFoam/pU/createDDtU.H
 denseAGFoam/createFieldRefs.H
 polydisperseBubbleFoam/createFieldRefs.H
 buoyantPbePimpleFoam/createFields.H
 mixingTransportFoam/createFields.H
 multiphase/denseAGFoam/createFields.H
 multiphase/polydisperseBubbleFoam/createFields.H
 pbeFoam/createFields.H
 pbeTransportFoam/createFields.H
 createMRF.H
 createSingleCellMesh.H
 daughterDistribution.C
 daughterDistribution.H
 Davidson.C
 Davidson.H
 denseAGFoam/pU/DDtU.H
 polydisperseBubbleFoam/pU/DDtU.H
 denseAGFoam.CUses a normal distribution of velocities in the dilute regime for more accurate transport. The 0th, 1st, and 2nd order velocity moments are used for transport. A switching function is also used to calculate the importance of dense and dilute solutions
 differentialForceAggregation.C
 differentialForceAggregation.H
 mixingModels/mixingSubModels/diffusionModels/diffusionModel/diffusionModel.C
 populationBalanceModels/populationBalanceSubModels/diffusionModels/diffusionModel/diffusionModel.C
 mixingModels/mixingSubModels/diffusionModels/diffusionModel/diffusionModel.H
 populationBalanceModels/populationBalanceSubModels/diffusionModels/diffusionModel/diffusionModel.H
 dragModel.C
 dragModel.H
 EEqn.H
 eigenSolver.C
 eigenSolver.H
 equilibrium.C
 equilibrium.H
 Ergun.C
 Ergun.H
 erosion.C
 erosion.H
 exponentialBreakup.C
 exponentialBreakup.H
 extendedFieldMomentInversion.C
 extendedFieldMomentInversion.H
 extendedMomentInversion.C
 extendedMomentInversion.H
 fieldMomentInversion.C
 fieldMomentInversion.H
 fieldMomentInversionI.H
 firstOrderKinetic.C
 firstOrderKinetic.H
 fluxSplittingFunction.C
 fluxSplittingFunction.H
 FokkerPlanck.C
 FokkerPlanck.H
 Frank.C
 Frank.H
 frictionalStressModel.C
 frictionalStressModel.H
 fullFragmentation.C
 fullFragmentation.H
 gammaEQMOM.C
 gammaEQMOM.H
 gaussLobattoMomentInversion.C
 gaussLobattoMomentInversion.H
 gaussMomentInversion.C
 gaussMomentInversion.H
 gaussRadauMomentInversion.C
 gaussRadauMomentInversion.H
 generateMoments.CSolver for a system of any number of compressible fluid phases with a common pressure, but otherwise separate properties. The type of phase model is run time selectable and can optionally represent multiple species and in-phase reactions. The phase system is also run time selectable and can optionally represent different types of momentun, heat and mass transfer
 Gibilaro.C
 Gibilaro.H
 GidaspowConductivity.C
 GidaspowConductivity.H
 GidaspowErgunWenYu.C
 GidaspowErgunWenYu.H
 GidaspowSchillerNaumann.C
 GidaspowSchillerNaumann.H
 GidaspowViscosity.C
 GidaspowViscosity.H
 Gosman.C
 Gosman.H
 granularPressureModel.C
 granularPressureModel.H
 growthModel.C
 growthModel.H
 hermiteQuadrature.C
 hermiteQuadrature.H
 HrenyaSinclairConductivity.C
 HrenyaSinclairConductivity.H
 HrenyaSinclairViscosity.C
 HrenyaSinclairViscosity.H
 hydrodynamicAggregation.C
 hydrodynamicAggregation.H
 hyperbolic.C
 hyperbolic.H
 IEM.C
 IEM.H
 interpolatedWallDamping.C
 interpolatedWallDamping.H
 IshiiZuber.C
 IshiiZuber.H
 JohnsonJacksonFrictionalStress.C
 JohnsonJacksonFrictionalStress.H
 JohnsonJacksonParticleSlipFvPatchVectorField.C
 JohnsonJacksonParticleSlipFvPatchVectorField.H
 JohnsonJacksonParticleThetaFvPatchScalarField.C
 JohnsonJacksonParticleThetaFvPatchScalarField.H
 JohnsonJacksonSchaefferFrictionalStress.C
 JohnsonJacksonSchaefferFrictionalStress.H
 kineticTheory.C
 kineticTheory.H
 kineticTheoryModel.C
 kineticTheoryModel.H
 KongFoxConductivity.C
 KongFoxConductivity.H
 KongFoxPressure.C
 KongFoxPressure.H
 KongFoxViscosity.C
 KongFoxViscosity.H
 Lain.C
 Lain.H
 Lamb.C
 Lamb.H
 LegendreMagnaudet.C
 LegendreMagnaudet.H
 Lehr.C
 Lehr.H
 liftModel.C
 liftModel.H
 linear.C
 linear.H
 linearWallDamping.C
 linearWallDamping.H
 lognormalEQMOM.C
 lognormalEQMOM.H
 LopezDeBertodano.C
 LopezDeBertodano.H
 LunPressure.C
 LunPressure.H
 LunSavageRadial.C
 LunSavageRadial.H
 src/quadratureMethods/populationBalanceModels/populationBalanceSubModels/breakupKernels/LuoSvendsen/LuoSvendsen.C
 applications/solvers/multiphase/interfacialModels/bubbleBreakupKernels/LuoSvendsen/LuoSvendsen.C
 src/quadratureMethods/populationBalanceModels/populationBalanceSubModels/breakupKernels/LuoSvendsen/LuoSvendsen.H
 applications/solvers/multiphase/interfacialModels/bubbleBreakupKernels/LuoSvendsen/LuoSvendsen.H
 Miller.C
 Miller.H
 mixingKernel.C
 mixingKernel.H
 mixingModel.C
 mixingModel.H
 mixingTransportFoam.CSolver for mixing model on steady velocity field
 mixingModels/mixingSubModels/diffusionModels/molecularDiffusion/molecularDiffusion.C
 populationBalanceModels/populationBalanceSubModels/diffusionModels/molecularDiffusion/molecularDiffusion.C
 mixingModels/mixingSubModels/diffusionModels/molecularDiffusion/molecularDiffusion.H
 populationBalanceModels/populationBalanceSubModels/diffusionModels/molecularDiffusion/molecularDiffusion.H
 moment.C
 moment.H
 momentFieldSet.C
 momentFieldSet.H
 momentFieldSetI.H
 momentFieldSets.H
 momentGenerationModel.C
 momentGenerationModel.H
 momentGenerationModelnew.C
 momentI.H
 moments.H
 momentSet.C
 momentSet.H
 momentSetI.H
 monoKineticQuadratureApproximation.C
 monoKineticQuadratureApproximation.H
 monoKineticQuadratureApproximationI.H
 Moraga.C
 Moraga.H
 nDimensionalMappedList.C
 nDimensionalMappedList.H
 nDimensionalMappedListI.H
 newAggregationKernel.C
 newAspectRatioModel.C
 newBlendingMethod.C
 newBreakupKernel.C
 newBubbleBreakupKernel.C
 newBubblePressureModel.C
 newCoalescenceEfficiencyKernel.C
 newCoalescenceFrequencyKernel.C
 newConductivityModel.C
 newDaughterDistribution.C
 mixingModels/mixingSubModels/diffusionModels/diffusionModel/newDiffusionModel.C
 populationBalanceModels/populationBalanceSubModels/diffusionModels/diffusionModel/newDiffusionModel.C
 newDragModel.C
 newExtendedMomentInversion.C
 newFieldMomentInversion.C
 newFluxSplittingFunction.C
 newFrictionalStressModel.C
 newGranularPressureModel.C
 newGrowthModel.C
 newKineticTheoryModel.C
 newLiftModel.C
 newMixingKernel.C
 newMixingModel.C
 newNucleationModel.C
 newPhaseModel.C
 newPopulationBalanceModel.C
 newRadialModel.C
 newSwarmCorrection.C
 newTurbulentDispersionModel.C
 newUnivariateMomentAdvection.C
 newUnivariateMomentInversion.C
 newVirtualMassModel.C
 newViscosityModel.C
 newWallDampingModel.C
 newWallLubricationModel.C
 noAdvection.C
 noAdvection.H
 noBlending.C
 noBlending.H
 noBubblePressure.C
 noBubblePressure.H
 mixingModels/mixingSubModels/diffusionModels/noDiffusion/noDiffusion.C
 populationBalanceModels/populationBalanceSubModels/diffusionModels/noDiffusion/noDiffusion.C
 mixingModels/mixingSubModels/diffusionModels/noDiffusion/noDiffusion.H
 populationBalanceModels/populationBalanceSubModels/diffusionModels/noDiffusion/noDiffusion.H
 noLift.C
 noLift.H
 noMixing.C
 noMixing.H
 noMomentGeneration.C
 noMomentGeneration.H
 nonEquilibrium.C
 nonEquilibrium.H
 noneViscosity.C
 noneViscosity.H
 noNucleation.C
 noNucleation.H
 noPopulationBalance.C
 noPopulationBalance.H
 noSwarm.C
 noSwarm.H
 noTurbulentDispersion.C
 noTurbulentDispersion.H
 noVirtualMass.C
 noVirtualMass.H
 noWallDamping.C
 noWallDamping.H
 noWallLubrication.C
 noWallLubrication.H
 nucleationModel.C
 nucleationModel.H
 oneQuarterMassRatio.C
 oneQuarterMassRatio.H
 orderedPhasePair.C
 orderedPhasePair.H
 output.H
 Panicker.C
 Panicker.H
 particlePressure.C
 particlePressure.H
 pbeFoam.CSolver for population balance problems
 pbeTransportFoam.CSolver for population balance equation on steady velocity field
 PDFTransportModel.C
 PDFTransportModel.H
 pdPhaseModel.C
 pdPhaseModel.H
 buoyantPbePimpleFoam/pEqn.H
 multiphase/denseAGFoam/pU/pEqn.H
 multiphase/polydisperseBubbleFoam/pU/pEqn.H
 phaseCompressibleMeanVelocityForce.C
 phaseCompressibleMeanVelocityForce.H
 phaseCompressibleTurbulenceModel.H
 phaseCompressibleTurbulenceModelFwd.H
 phaseCompressibleTurbulenceModels.C
 phaseIncompressibleMeanVelocityForce.C
 phaseIncompressibleMeanVelocityForce.H
 phaseModel.C
 phaseModel.H
 phaseModels.C
 phasePair.C
 phasePair.H
 phasePairI.H
 phasePairKey.C
 phasePairKey.H
 phasePressureModel.C
 phasePressureModel.H
 polydisperseBubbleFoam.CSolver for polydisperse gas-liquid flows using a quadrature-based moment method to describe the gas phase
 populationBalanceModel.C
 populationBalanceModel.H
 powerLawBreakup.C
 powerLawBreakup.H
 coalescenceEfficiencyKernels/PrinceAndBlanch/PrinceAndBlanch.C
 coalescenceFrequencyKernels/PrinceAndBlanch/PrinceAndBlanch.C
 coalescenceEfficiencyKernels/PrinceAndBlanch/PrinceAndBlanch.H
 coalescenceFrequencyKernels/PrinceAndBlanch/PrinceAndBlanch.H
 quadratureApproximation.C
 quadratureApproximation.H
 quadratureApproximationI.H
 quadratureApproximations.H
 quadratureNode.C
 quadratureNode.H
 quadratureNodeI.H
 quadratureNodes.H
 radialModel.C
 radialModel.H
 readControls.H
 SchaefferFrictionalStress.C
 SchaefferFrictionalStress.H
 SchillerNaumann.C
 SchillerNaumann.H
 segregated.C
 segregated.H
 setDeltaT.H
 setRDeltaT.H
 SinclairJacksonRadial.C
 SinclairJacksonRadial.H
 sineWallDamping.C
 sineWallDamping.H
 sumAggregation.C
 sumAggregation.H
 swarmCorrection.C
 swarmCorrection.H
 SyamlalConductivity.C
 SyamlalConductivity.H
 SyamlalOBrien.C
 SyamlalOBrien.H
 SyamlalRogersOBrienPressure.C
 SyamlalRogersOBrienPressure.H
 SyamlalViscosity.C
 SyamlalViscosity.H
 symmetricFragmentation.C
 symmetricFragmentation.H
 Tomiyama.C
 Tomiyama.H
 TomiyamaAnalytic.C
 TomiyamaAnalytic.H
 TomiyamaAspectRatio.C
 TomiyamaAspectRatio.H
 TomiyamaCorrelated.C
 TomiyamaCorrelated.H
 TomiyamaLift.C
 TomiyamaLift.H
 TomiyamaSwarm.C
 TomiyamaSwarm.H
 TomiyamaWallLubrication.C
 TomiyamaWallLubrication.H
 turbulentBrownian.C
 turbulentBrownian.H
 mixingModels/mixingSubModels/diffusionModels/turbulentDiffusion/turbulentDiffusion.C
 populationBalanceModels/populationBalanceSubModels/diffusionModels/turbulentDiffusion/turbulentDiffusion.C
 mixingModels/mixingSubModels/diffusionModels/turbulentDiffusion/turbulentDiffusion.H
 populationBalanceModels/populationBalanceSubModels/diffusionModels/turbulentDiffusion/turbulentDiffusion.H
 turbulentDispersionModel.C
 turbulentDispersionModel.H
 turbulentMixing.C
 turbulentMixing.H
 twoPhaseSystem.C
 twoPhaseSystem.H
 twoPhaseSystemI.H
 UEqn.H
 denseAGFoam/pU/UEqns.H
 polydisperseBubbleFoam/pU/UEqns.H
 uniform.C
 uniform.H
 univariateMomentAdvection.C
 univariateMomentAdvection.H
 univariateMomentAdvectionI.H
 univariateMomentInversion.C
 univariateMomentInversion.H
 univariateMomentInversionI.H
 univariateMomentSet.C
 univariateMomentSet.H
 univariateMomentSetI.H
 univariatePDFTransportModel.C
 univariatePDFTransportModel.H
 univariatePDFTransportModelI.H
 univariatePopulationBalance.C
 univariatePopulationBalance.H
 VakhrushevEfremov.C
 VakhrushevEfremov.H
 Vandermonde.C
 Vandermonde.H
 VandermondeI.H
 virtualMassModel.C
 virtualMassModel.H
 viscosityModel.C
 viscosityModel.H
 wallDampedLift.C
 wallDampedLift.H
 wallDampingModel.C
 wallDampingModel.H
 wallDependentModel.C
 wallDependentModel.H
 wallLubricationModel.C
 wallLubricationModel.H
 weightsAndAbscissae.C
 weightsAndAbscissae.H
 Wellek.C
 Wellek.H
 WenYu.C
 WenYu.H
 zeta.C
 zeta.H
 Zuber.C
 Zuber.H