Chemical - Specification Chart

来自 : cn.comsol.com/products/specifi 发布时间：2021-03-25

Physics Interfaces and Study Types ChemistryThermodynamics couplingElectrophoretic TransportStationaryTime DependentTime Dependent with InitializationMoisture FlowLaminar FlowStationaryTime dependentPorous Media Flow1Stationary1Time Dependent1Turbulent Flow, Algebraic yPlusStationaryTime dependentTurbulent Flow, k-epsilonStationaryTime dependentTurbulent Flow, k-omega2Stationary2Time dependent2Turbulent Flow, L-VELStationaryTime dependentTurbulent Flow, Low-Re k-epsilonStationaryTime dependentTurbulent Flow, Spalart-Allmaras2Stationary2Time dependent2Turbulent Flow, SST2Stationary2Time dependent2Moisture Transport in AirStationaryTime DependentMoisture Transport in Porous MediaStationaryTime DependentNernst-Planck EquationsStationaryTime DependentNernst-Planck-Poisson EquationsStationaryTime DependentReacting Pipe FlowAdd-on for Multiple-Species User InterfaceStationaryTime DependentReaction EngineeringStationary Plug FlowThermodynamics couplingTime DependentSurface ReactionsStationaryTransientTransport of Concentrated SpeciesStationaryTime DependentTransport of Diluted SpeciesAdd-on for Multiple-Species User InterfaceStationaryTime DependentTransport of Diluted Species in FracturesStationaryTime DependentTransport of Diluted Species in PipesAdd-on for Multiple-Species User InterfaceStationaryTime DependentTransport of Diluted Species in Porous MediaStationaryTime DependentMoisture Transport Hygroscopic Porous MediumStationaryTime DependentMoisture Transport in AirStationaryTime DependentMoisture Transport in Building MaterialStationaryTime DependentReacting Flow Laminar Flow, Diluted SpeciesLaminar FlowStationaryTime dependentTurbulent Flow, k-epsilonStationaryTime DependentTurbulent Flow, k-omegaStationaryStationary with InitializationTime DependentTime Dependent with InitializationTurbulent Flow, Low-Re k-epsilonStationary with InitializationTime Dependent with InitializationTurbulent Flow, SSTStationary with InitializationTime Dependent with InitializationReacting Flow in Porous Media Concentrated SpeciesStationaryTime DependentDiluted SpeciesStationaryTime DependentRotating Machinery, Reacting Flow Laminar FlowFrozen Rotor2Time Dependent2Turbulent Flow, k-epsilonFrozen Rotor2Time Dependent2Turbulent Flow, k-omegaFrozen Rotor2Frozen Rotor with Initialization2Time Dependent2Time Dependent with Initialization2Turbulent Flow, Low-Re k-epsilonFrozen Rotor with Initialization2Time Dependent with Initialization2Turbulent Flow, SSTFrozen Rotor with Initialization2Time Dependent with Initialization2Boundary Conditions Axial SymmetryConcentrationContinuityCurrent DensityCurrent DiscontinuityElectric InsulationElectric PotentialElectrode Surface CouplingFluxFlux DiscontinuityMass OutflowNo FluxOpen BoundaryOutflowPartition ConditionPeriodic ConditionPorous Electrode CouplingReacting BoundarySurface Equilibrium ReactionSurface ReactionsSymmetryThin Diffusion BarrierThin Impermeable BarrierVolatilizationFractureAdsorptionInflowDanckwerts Inflow ConditionInflow with Mixture SpecificationDensitiesMass Flow ratesMass FractionsMolar ConcentrationsMole FractionsNumber DensitiesMoisture Transport InflowInsulationMoist SurfaceMoisture ContentOpen boundaryOutflowSymmetryThin Moisture BarrierWet SurfaceMoisture FluxConvective Moisture Flux - concentrations difference - forced convection correlationsConvective Moisture Flux - concentrations difference - from heat and moisture transport analogyConvective Moisture Flux - concentrations difference - natural convection correlationsConvective Moisture Flux - pressures difference - user definedChemical Kinetics Parameter estimation in Reaction Engineering2CHEMKIN file import of thermo- transport- and kinetic dataCHEMKIN file importSurface CHEMKIN file importEdge and Point Conditions FluxLine Mass SourcePoint Mass SourceThermodynamics of Liquids and Gases ThermodynamicsPredefined SystemSpecies Properties DatabaseUser-Defined SpeciesExternal Thermodynamic SystemGenerate ChemistryGenerate MaterialThermodynamic SystemGenerate ChemistryGenerate MaterialSteam and Water Properties (IAPWS)Volumetric Domain Properties 1D, 2D, Axisymmetric, and 3D FormulationsConvection and DiffusionElectrochemical ReactionsEquilibrium ReactionFree FlowGenerate Space-Dependent ModelInfinite Domain Modeling with Infinite ElementsInitial ValuesIsotropic DiffusionMass Based ConcentrationsMigration in Electric FieldMultiple-Species User InterfaceReactionsSpecies SourceTurbulent MixingWall Mass TransferEffective Diffusivity ModelsBruggemanMillington and Quirk TortuosityPorous MediumAdsorptionDispersionFluidPorous MatrixReactions, Chemical Reaction EngineeringAutomatic Kinetics GenerationBalance ReactionReactive Pellet Bed, Transport of Concentrated SpeciesPellet Transport PropertiesReaction SourcesReactive Pellet Bed, Transport of Diluted SpeciesPorous Media DiffusionReactionsSpecies, Chemical Reaction EngineeringAutomatic definition of molar mass from the chemical formulaUnsaturated Porous MediumAdsorptionDispersionGasLiquidPorous MatrixDiffusion-Models for Transport of Concentrated Species Fick\'s LawKnudsen DiffusionMaxwell-StefanMixture-AveragedMoisture Transport Building Material Moisture SourceMoist AirTurbulent MixingMultiphysics Couplings Hygroscopic SwellingSolid MechanicsRequires Porous Media Flow Module or Heat Transfer Module combined with any module providing the Brinkman Equation interface.Requires all indicated products