Element-wise calculation of the local residual for problems using the ThreePWaterOil fully implicit model.
#include <dumux/porousmediumflow/3pwateroil/localresidual.hh>
|
| enum | {
numPhases = GetPropType<TypeTag, Properties::ModelTraits>::numFluidPhases()
, numComponents = GetPropType<TypeTag, Properties::ModelTraits>::numFluidComponents()
, conti0EqIdx = Indices::conti0EqIdx
, conti1EqIdx = conti0EqIdx + 1
,
wPhaseIdx = FluidSystem::wPhaseIdx
, nPhaseIdx = FluidSystem::nPhaseIdx
, gPhaseIdx = FluidSystem::gPhaseIdx
, wCompIdx = FluidSystem::wCompIdx
,
nCompIdx = FluidSystem::nCompIdx
} |
| |
| using | GridGeometry = GetPropType<TypeTag, Properties::GridGeometry> |
| |
| using | ParentType = DiscretizationDefaultLocalOperator<TypeTag> |
| |
| using | Problem = GetPropType<TypeTag, Properties::Problem> |
| |
| using | Scalar = GetPropType<TypeTag, Properties::Scalar> |
| |
| using | FVElementGeometry = typename GridGeometry::LocalView |
| |
| using | SubControlVolume = typename FVElementGeometry::SubControlVolume |
| |
| using | SubControlVolumeFace = typename FVElementGeometry::SubControlVolumeFace |
| |
| using | NumEqVector = Dumux::NumEqVector<GetPropType<TypeTag, Properties::PrimaryVariables>> |
| |
| using | FluxVariables = GetPropType<TypeTag, Properties::FluxVariables> |
| |
| using | ElementFluxVariablesCache = typename GetPropType<TypeTag, Properties::GridFluxVariablesCache>::LocalView |
| |
| using | Indices = typename GetPropType<TypeTag, Properties::ModelTraits>::Indices |
| |
| using | GridView = typename GridGeometry::GridView |
| |
| using | Element = typename GridView::template Codim<0>::Entity |
| |
| using | ElementVolumeVariables = typename GetPropType<TypeTag, Properties::GridVolumeVariables>::LocalView |
| |
| using | VolumeVariables = GetPropType<TypeTag, Properties::VolumeVariables> |
| |
| using | EnergyLocalResidual = GetPropType<TypeTag, Properties::EnergyLocalResidual> |
| |
| using | FluidSystem = GetPropType<TypeTag, Properties::FluidSystem> |
| |
|
| static constexpr bool | useMoles = getPropValue<TypeTag, Properties::UseMoles>() |
| | Property that defines whether mole or mass fractions are used.
|
| |
◆ Element
◆ ElementFluxVariablesCache
◆ ElementVolumeVariables
◆ EnergyLocalResidual
◆ FluidSystem
◆ FluxVariables
◆ FVElementGeometry
◆ GridGeometry
◆ GridView
◆ Indices
◆ NumEqVector
◆ ParentType
◆ Problem
◆ Scalar
◆ SubControlVolume
◆ SubControlVolumeFace
◆ VolumeVariables
◆ anonymous enum
| Enumerator |
|---|
| numPhases | |
| numComponents | |
| conti0EqIdx | Index of the mass conservation equation for the water component.
|
| conti1EqIdx | Index of the mass conservation equation for the contaminant component.
|
| wPhaseIdx | |
| nPhaseIdx | |
| gPhaseIdx | |
| wCompIdx | |
| nCompIdx | |
◆ computeFlux()
- Parameters
-
| problem | The problem |
| element | The element |
| fvGeometry | The finite volume element geometry |
| elemVolVars | The element volume variables |
| scvf | The sub control volume face |
| elemFluxVarsCache | The element flux variables cache |
Add advective phase energy fluxes. For isothermal model the contribution is zero.
Add diffusive energy fluxes. For isothermal model the contribution is zero.
◆ computeStorage()
The result should be averaged over the volume (e.g. phase mass inside a sub control volume divided by the volume)
- Parameters
-
| problem | The problem |
| scv | The sub-control-volume |
| volVars | The volume variables |
The energy storage in the fluid phase with index phaseIdx
The energy storage in the solid matrix
◆ useMoles
The documentation for this class was generated from the following file: