A fully-implicit multi-phase flow model which assumes immiscibility of the phases. More...
#include <opm/material/densead/Math.hpp>
#include "immiscibleproperties.hh"
#include "immiscibleindices.hh"
#include "immiscibleextensivequantities.hh"
#include "immiscibleprimaryvariables.hh"
#include "immiscibleintensivequantities.hh"
#include "immiscibleratevector.hh"
#include "immiscibleboundaryratevector.hh"
#include "immisciblelocalresidual.hh"
#include <ewoms/models/common/multiphasebasemodel.hh>
#include <ewoms/models/common/energymodule.hh>
#include <ewoms/io/vtkenergymodule.hh>
#include <opm/material/components/NullComponent.hpp>
#include <opm/material/fluidsystems/GasPhase.hpp>
#include <opm/material/fluidsystems/LiquidPhase.hpp>
#include <opm/material/fluidsystems/SinglePhaseFluidSystem.hpp>
#include <opm/material/fluidsystems/TwoPhaseImmiscibleFluidSystem.hpp>
#include <sstream>
#include <string>
Go to the source code of this file.
Classes | |
class | Ewoms::ImmiscibleModel< TypeTag > |
A fully-implicit multi-phase flow model which assumes immiscibility of the phases. More... | |
class | Ewoms::ImmiscibleModel< TypeTag > |
A fully-implicit multi-phase flow model which assumes immiscibility of the phases. More... | |
Functions | |
Ewoms::Properties::NEW_TYPE_TAG (ImmiscibleModel, INHERITS_FROM(MultiPhaseBaseModel, VtkEnergy)) | |
The generic type tag for problems using the immiscible multi-phase model. | |
Ewoms::Properties::NEW_TYPE_TAG (ImmiscibleSinglePhaseModel, INHERITS_FROM(ImmiscibleModel)) | |
The type tag for single-phase immiscible problems. | |
Ewoms::Properties::NEW_TYPE_TAG (ImmiscibleTwoPhaseModel, INHERITS_FROM(ImmiscibleModel)) | |
The type tag for two-phase immiscible problems. | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, LocalResidual, Ewoms::ImmiscibleLocalResidual< TypeTag >) | |
Use the immiscible multi-phase local jacobian operator for the immiscible multi-phase model. | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, Model, Ewoms::ImmiscibleModel< TypeTag >) | |
the Model property | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, RateVector, Ewoms::ImmiscibleRateVector< TypeTag >) | |
the RateVector property | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, BoundaryRateVector, Ewoms::ImmiscibleBoundaryRateVector< TypeTag >) | |
the BoundaryRateVector property | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, PrimaryVariables, Ewoms::ImmisciblePrimaryVariables< TypeTag >) | |
the PrimaryVariables property | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, IntensiveQuantities, Ewoms::ImmiscibleIntensiveQuantities< TypeTag >) | |
the IntensiveQuantities property | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, ExtensiveQuantities, Ewoms::ImmiscibleExtensiveQuantities< TypeTag >) | |
the ExtensiveQuantities property | |
Ewoms::Properties::SET_TYPE_PROP (ImmiscibleModel, Indices, Ewoms::ImmiscibleIndices< TypeTag, 0 >) | |
The indices required by the isothermal immiscible multi-phase model. | |
Ewoms::Properties::SET_BOOL_PROP (ImmiscibleModel, EnableEnergy, false) | |
Disable the energy equation by default. | |
Ewoms::Properties::SET_PROP (ImmiscibleSinglePhaseModel, FluidSystem) | |
The fluid system to use by default. | |
Ewoms::Properties::SET_PROP (ImmiscibleSinglePhaseModel, Fluid) | |
Ewoms::Properties::SET_BOOL_PROP (ImmiscibleSinglePhaseModel, VtkWriteSaturations, false) | |
Ewoms::Properties::SET_BOOL_PROP (ImmiscibleSinglePhaseModel, VtkWriteMobilities, false) | |
Ewoms::Properties::SET_BOOL_PROP (ImmiscibleSinglePhaseModel, VtkWriteRelativePermeabilities, false) | |
Ewoms::Properties::SET_PROP (ImmiscibleTwoPhaseModel, WettingPhase) | |
Ewoms::Properties::SET_PROP (ImmiscibleTwoPhaseModel, NonwettingPhase) | |
Ewoms::Properties::SET_PROP (ImmiscibleTwoPhaseModel, FluidSystem) | |
A fully-implicit multi-phase flow model which assumes immiscibility of the phases.
This model implements multi-phase flow of immiscible fluids
. By default, the standard multi-phase Darcy approach is used to determine the velocity, i.e.
although the actual approach which is used can be specified via the FluxModule
property. For example, the velocity model can by changed to the Forchheimer approach by
The core of the model is the conservation mass of each component by means of the equation
The model uses the following primary variables: