Provides the auxiliary methods required for consideration of the energy equation. More...
#include <energymodule.hh>
Static Public Member Functions | |
static void | registerParameters () |
Register all run-time parameters for the energy module. | |
static std::string | primaryVarName (unsigned pvIdx OPM_UNUSED) |
Returns the name of a primary variable or an empty string if the specified primary variable index does not belong to the energy module. | |
static std::string | eqName (unsigned eqIdx OPM_UNUSED) |
Returns the name of an equation or an empty string if the specified equation index does not belong to the energy module. | |
static Scalar | primaryVarWeight (const Model &model OPM_UNUSED, unsigned globalDofIdx OPM_UNUSED, unsigned pvIdx OPM_UNUSED) |
Returns the relative weight of a primary variable for calculating relative errors. | |
static Scalar | eqWeight (const Model &model OPM_UNUSED, unsigned globalDofIdx OPM_UNUSED, unsigned eqIdx OPM_UNUSED) |
Returns the relative weight of a equation of the residual. | |
template<class FluidState > | |
static void | setPriVarTemperatures (PrimaryVariables &priVars OPM_UNUSED, const FluidState &fs OPM_UNUSED) |
Given a fluid state, set the temperature in the primary variables. | |
template<class RateVector , class FluidState > | |
static void | setEnthalpyRate (RateVector &rateVec OPM_UNUSED, const FluidState &fluidState OPM_UNUSED, unsigned phaseIdx OPM_UNUSED, const Evaluation &volume OPM_UNUSED) |
Given a fluid state, set the enthalpy rate which emerges from a volumetric rate. | |
static void | setEnthalpyRate (RateVector &rateVec OPM_UNUSED, const Evaluation &rate OPM_UNUSED) |
Add the rate of the enthalpy flux to a rate vector. | |
static void | addToEnthalpyRate (RateVector &rateVec OPM_UNUSED, const Evaluation &rate OPM_UNUSED) |
Add the rate of the enthalpy flux to a rate vector. | |
static Scalar | heatConductionRate (const ExtensiveQuantities &extQuants OPM_UNUSED) |
Add the rate of the conductive heat flux to a rate vector. | |
template<class LhsEval > | |
static void | addPhaseStorage (Dune::FieldVector< LhsEval, numEq > &storage OPM_UNUSED, const IntensiveQuantities &intQuants OPM_UNUSED, unsigned phaseIdx OPM_UNUSED) |
Add the energy storage term for a fluid phase to an equation vector. | |
template<class LhsEval , class Scv > | |
static void | addFracturePhaseStorage (Dune::FieldVector< LhsEval, numEq > &storage OPM_UNUSED, const IntensiveQuantities &intQuants OPM_UNUSED, const Scv &scv OPM_UNUSED, unsigned phaseIdx OPM_UNUSED) |
Add the energy storage term for a fluid phase to an equation vector. | |
template<class LhsEval > | |
static void | addSolidHeatStorage (Dune::FieldVector< LhsEval, numEq > &storage OPM_UNUSED, const IntensiveQuantities &intQuants OPM_UNUSED) |
Add the energy storage term for the fracture part a fluid phase to an equation vector. | |
template<class Context > | |
static void | addAdvectiveFlux (RateVector &flux OPM_UNUSED, const Context &context OPM_UNUSED, unsigned spaceIdx OPM_UNUSED, unsigned timeIdx OPM_UNUSED) |
Evaluates the advective energy fluxes over a face of a subcontrol volume and adds the result in the flux vector. More... | |
template<class Context > | |
static void | handleFractureFlux (RateVector &flux OPM_UNUSED, const Context &context OPM_UNUSED, unsigned spaceIdx OPM_UNUSED, unsigned timeIdx OPM_UNUSED) |
Evaluates the advective energy fluxes over a fracture which should be attributed to a face of a subcontrol volume and adds the result in the flux vector. | |
template<class Context > | |
static void | addDiffusiveFlux (RateVector &flux OPM_UNUSED, const Context &context OPM_UNUSED, unsigned spaceIdx OPM_UNUSED, unsigned timeIdx OPM_UNUSED) |
Adds the diffusive heat flux to the flux vector over the face of a sub-control volume. More... | |
Provides the auxiliary methods required for consideration of the energy equation.
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inlinestatic |
Evaluates the advective energy fluxes over a face of a subcontrol volume and adds the result in the flux vector.
This method is called by compute flux (base class)
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inlinestatic |
Adds the diffusive heat flux to the flux vector over the face of a sub-control volume.
This method is called by compute flux (base class)