Defines the common properties required by the porous medium multi-phase models. More...
#include <ewoms/disc/common/fvbaseproperties.hh>
#include <ewoms/io/vtkmultiphasemodule.hh>
#include <ewoms/io/vtktemperaturemodule.hh>
Go to the source code of this file.
Functions | |
Ewoms::Properties::NEW_PROP_TAG (SpatialDiscretizationSplice) | |
The splice to be used for the spatial discretization. | |
Ewoms::Properties::NEW_PROP_TAG (NumPhases) | |
Number of fluid phases in the system. | |
Ewoms::Properties::NEW_PROP_TAG (NumComponents) | |
Number of chemical species in the system. | |
Ewoms::Properties::NEW_PROP_TAG (Indices) | |
Enumerations used by the model. | |
Ewoms::Properties::NEW_PROP_TAG (MaterialLaw) | |
The material law which ought to be used (extracted from the spatial parameters) | |
Ewoms::Properties::NEW_PROP_TAG (MaterialLawParams) | |
The context material law (extracted from the spatial parameters) | |
Ewoms::Properties::NEW_PROP_TAG (HeatConductionLaw) | |
The material law for heat conduction. More... | |
Ewoms::Properties::NEW_PROP_TAG (HeatConductionLawParams) | |
The parameters of the material law for heat conduction. More... | |
Ewoms::Properties::NEW_PROP_TAG (FluidSystem) | |
The fluid systems including the information about the phases. More... | |
Ewoms::Properties::NEW_PROP_TAG (FluxModule) | |
Specifies the relation used for velocity. | |
Ewoms::Properties::NEW_PROP_TAG (EnableGravity) | |
Returns whether gravity is considered in the problem. | |
Defines the common properties required by the porous medium multi-phase models.
Ewoms::Properties::NEW_PROP_TAG | ( | HeatConductionLaw | ) |
The material law for heat conduction.
The heat conduction law which ought to be used.
Ewoms::Properties::NEW_PROP_TAG | ( | HeatConductionLawParams | ) |
The parameters of the material law for heat conduction.
The parameters of the heat conduction law.
Ewoms::Properties::NEW_PROP_TAG | ( | FluidSystem | ) |
The fluid systems including the information about the phases.
The fluid system used for the problem.
Provides the thermodynamic relations.