opm-simulators/examples/problems/co2injectionproblem.hh

617 lines
21 KiB
C++
Raw Normal View History

/*
Copyright (C) 2008-2013 by Andreas Lauser
This file is part of the Open Porous Media project (OPM).
OPM is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
OPM is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OPM. If not, see <http://www.gnu.org/licenses/>.
*/
/*!
* \file
*
* \copydoc Ewoms::Co2InjectionProblem
*/
#ifndef EWOMS_CO2_INJECTION_PROBLEM_HH
#define EWOMS_CO2_INJECTION_PROBLEM_HH
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
#include <ewoms/models/immiscible/immisciblemodel.hh>
#include <opm/material/fluidsystems/H2ON2FluidSystem.hpp>
#include <opm/material/fluidsystems/BrineCO2FluidSystem.hpp>
#include <opm/material/fluidstates/CompositionalFluidState.hpp>
#include <opm/material/fluidstates/ImmiscibleFluidState.hpp>
#include <opm/material/constraintsolvers/ComputeFromReferencePhase.hpp>
2013-11-06 07:50:01 -06:00
#include <opm/material/fluidmatrixinteractions/LinearMaterial.hpp>
#include <opm/material/fluidmatrixinteractions/RegularizedBrooksCorey.hpp>
#include <opm/material/fluidmatrixinteractions/EffToAbsLaw.hpp>
#include <opm/material/fluidmatrixinteractions/MaterialTraits.hpp>
#include <opm/material/heatconduction/Somerton.hpp>
#include <opm/material/binarycoefficients/Brine_CO2.hpp>
#include <opm/material/StaticTabulated2dFunction.hpp>
#include <dune/grid/yaspgrid.hh>
#include <dune/common/version.hh>
#include <dune/common/fvector.hh>
#include <dune/common/fmatrix.hh>
#include <sstream>
#include <iostream>
#include <string>
namespace Ewoms {
template <class TypeTag>
class Co2InjectionProblem;
namespace Co2Injection {
#include <opm/material/components/co2tables.inc>
}
} // namespace Ewoms
namespace Opm {
namespace Properties {
NEW_TYPE_TAG(Co2InjectionBaseProblem);
// declare the CO2 injection problem specific property tags
NEW_PROP_TAG(FluidSystemPressureLow);
NEW_PROP_TAG(FluidSystemPressureHigh);
NEW_PROP_TAG(FluidSystemNumPressure);
NEW_PROP_TAG(FluidSystemTemperatureLow);
NEW_PROP_TAG(FluidSystemTemperatureHigh);
NEW_PROP_TAG(FluidSystemNumTemperature);
NEW_PROP_TAG(MaxDepth);
NEW_PROP_TAG(Temperature);
NEW_PROP_TAG(SimulationName);
// Set the grid type
SET_TYPE_PROP(Co2InjectionBaseProblem, Grid, Dune::YaspGrid<2>);
// Set the problem property
SET_TYPE_PROP(Co2InjectionBaseProblem, Problem,
Ewoms::Co2InjectionProblem<TypeTag>);
// Set fluid configuration
SET_PROP(Co2InjectionBaseProblem, FluidSystem)
{
private:
typedef typename GET_PROP_TYPE(TypeTag, Scalar) Scalar;
typedef Ewoms::Co2Injection::CO2Tables CO2Tables;
static const bool useComplexRelations = false;
public:
typedef Opm::FluidSystems::BrineCO2<Scalar, CO2Tables> type;
// typedef Opm::FluidSystems::H2ON2<Scalar, useComplexRelations> type;
};
// Set the material Law
SET_PROP(Co2InjectionBaseProblem, MaterialLaw)
{
private:
typedef typename GET_PROP_TYPE(TypeTag, FluidSystem) FluidSystem;
enum { liquidPhaseIdx = FluidSystem::liquidPhaseIdx };
enum { gasPhaseIdx = FluidSystem::gasPhaseIdx };
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
typedef typename GET_PROP_TYPE(TypeTag, Scalar) Scalar;
2013-11-06 07:50:01 -06:00
typedef Opm::TwoPhaseMaterialTraits<Scalar,
/*wettingPhaseIdx=*/FluidSystem::liquidPhaseIdx,
/*nonWettingPhaseIdx=*/FluidSystem::gasPhaseIdx>
Traits;
2013-11-06 07:50:01 -06:00
// define the material law which is parameterized by effective
// saturations
typedef Opm::RegularizedBrooksCorey<Traits> EffMaterialLaw;
public:
2013-11-06 07:50:01 -06:00
// define the material law parameterized by absolute saturations
typedef Opm::EffToAbsLaw<EffMaterialLaw> type;
};
// Set the heat conduction law
SET_PROP(Co2InjectionBaseProblem, HeatConductionLaw)
{
private:
typedef typename GET_PROP_TYPE(TypeTag, Scalar) Scalar;
typedef typename GET_PROP_TYPE(TypeTag, FluidSystem) FluidSystem;
public:
// define the material law parameterized by absolute saturations
typedef Opm::Somerton<FluidSystem, Scalar> type;
};
// Write the Newton convergence behavior to disk?
SET_BOOL_PROP(Co2InjectionBaseProblem, NewtonWriteConvergence, false);
// Enable gravity
SET_BOOL_PROP(Co2InjectionBaseProblem, EnableGravity, true);
// Reuse linearizations if possible?
SET_BOOL_PROP(Co2InjectionBaseProblem, EnableLinearizationRecycling, true);
// set the defaults for the problem specific properties
SET_SCALAR_PROP(Co2InjectionBaseProblem, FluidSystemPressureLow, 3e7);
SET_SCALAR_PROP(Co2InjectionBaseProblem, FluidSystemPressureHigh, 4e7);
SET_INT_PROP(Co2InjectionBaseProblem, FluidSystemNumPressure, 100);
SET_SCALAR_PROP(Co2InjectionBaseProblem, FluidSystemTemperatureLow, 290);
SET_SCALAR_PROP(Co2InjectionBaseProblem, FluidSystemTemperatureHigh, 500);
SET_INT_PROP(Co2InjectionBaseProblem, FluidSystemNumTemperature, 100);
SET_SCALAR_PROP(Co2InjectionBaseProblem, MaxDepth, 2500);
SET_SCALAR_PROP(Co2InjectionBaseProblem, Temperature, 293.15);
SET_STRING_PROP(Co2InjectionBaseProblem, SimulationName, "co2injection");
// The default for the end time of the simulation
SET_SCALAR_PROP(Co2InjectionBaseProblem, EndTime, 1e4);
// The default for the initial time step size of the simulation
SET_SCALAR_PROP(Co2InjectionBaseProblem, InitialTimeStepSize, 250);
// The default DGF file to load
SET_STRING_PROP(Co2InjectionBaseProblem, GridFile, "data/co2injection.dgf");
} // namespace Properties
} // namespace Opm
namespace Ewoms {
/*!
* \ingroup VcfvTestProblems
*
* \brief Problem where \f$CO_2\f$ is injected under a low permeable
* layer at a depth of 2700m.
*
* The domain is sized 60m times 40m and consists of two layers, one
* which is moderately permeable (\f$K = 10^{-12}\;m^2\f$) for \f$ y >
* 22\; m\f$ and one with a lower intrinsic permeablility (\f$
* K=10^{-13}\;m^2\f$) in the rest of the domain.
*
* \f$CO_2\f$ gets injected by means of a forced-flow boundary
* condition into water-filled aquifer, which is situated 2700m below
* sea level, at the lower-right boundary (\f$5m<y<15m\f$) and
* migrates upwards due to buoyancy. It accumulates and eventually
* enters the lower permeable aquitard.
*
* The boundary conditions applied by this problem are no-flow
* conditions on the top bottom and right boundaries and a free-flow
* boundary condition on the left. For the free-flow condition,
* hydrostatic pressure is assumed.
*/
template <class TypeTag>
class Co2InjectionProblem : public GET_PROP_TYPE(TypeTag, BaseProblem)
{
typedef typename GET_PROP_TYPE(TypeTag, BaseProblem) ParentType;
typedef typename GET_PROP_TYPE(TypeTag, GridView) GridView;
typedef typename GET_PROP_TYPE(TypeTag, Scalar) Scalar;
typedef typename GET_PROP_TYPE(TypeTag, FluidSystem) FluidSystem;
enum { dim = GridView::dimension };
enum { dimWorld = GridView::dimensionworld };
// copy some indices for convenience
typedef typename GET_PROP_TYPE(TypeTag, Indices) Indices;
enum { numPhases = FluidSystem::numPhases };
enum { gasPhaseIdx = FluidSystem::gasPhaseIdx };
enum { liquidPhaseIdx = FluidSystem::liquidPhaseIdx };
enum { CO2Idx = FluidSystem::CO2Idx };
enum { BrineIdx = FluidSystem::BrineIdx };
enum { conti0EqIdx = Indices::conti0EqIdx };
enum { contiCO2EqIdx = conti0EqIdx + CO2Idx };
typedef typename GET_PROP_TYPE(TypeTag, PrimaryVariables) PrimaryVariables;
typedef typename GET_PROP_TYPE(TypeTag, RateVector) RateVector;
typedef typename GET_PROP_TYPE(TypeTag, BoundaryRateVector) BoundaryRateVector;
typedef typename GET_PROP_TYPE(TypeTag, MaterialLaw) MaterialLaw;
typedef typename GET_PROP_TYPE(TypeTag, Simulator) Simulator;
typedef typename GET_PROP_TYPE(TypeTag, MaterialLawParams) MaterialLawParams;
typedef typename GET_PROP_TYPE(TypeTag, Model) Model;
typedef typename GET_PROP_TYPE(TypeTag, HeatConductionLaw) HeatConductionLaw;
typedef typename HeatConductionLaw::Params HeatConductionLawParams;
typedef typename GridView::ctype CoordScalar;
typedef Dune::FieldVector<CoordScalar, dimWorld> GlobalPosition;
typedef Dune::FieldMatrix<Scalar, dimWorld, dimWorld> DimMatrix;
public:
/*!
* \copydoc Doxygen::defaultProblemConstructor
*/
Co2InjectionProblem(Simulator &simulator)
: ParentType(simulator)
{
eps_ = 1e-6;
temperatureLow_ = EWOMS_GET_PARAM(TypeTag, Scalar, FluidSystemTemperatureLow);
temperatureHigh_ = EWOMS_GET_PARAM(TypeTag, Scalar, FluidSystemTemperatureHigh);
nTemperature_ = EWOMS_GET_PARAM(TypeTag, int, FluidSystemNumTemperature);
nPressure_ = EWOMS_GET_PARAM(TypeTag, int, FluidSystemNumPressure);
pressureLow_ = EWOMS_GET_PARAM(TypeTag, Scalar, FluidSystemPressureLow);
pressureHigh_ = EWOMS_GET_PARAM(TypeTag, Scalar, FluidSystemPressureHigh);
maxDepth_ = EWOMS_GET_PARAM(TypeTag, Scalar, MaxDepth);
temperature_ = EWOMS_GET_PARAM(TypeTag, Scalar, Temperature);
// initialize the tables of the fluid system
// FluidSystem::init();
FluidSystem::init(/*Tmin=*/temperatureLow_,
/*Tmax=*/temperatureHigh_,
/*nT=*/nTemperature_,
/*pmin=*/pressureLow_,
/*pmax=*/pressureHigh_,
/*np=*/nPressure_);
fineLayerBottom_ = 22.0;
// intrinsic permeabilities
fineK_ = this->toDimMatrix_(1e-13);
coarseK_ = this->toDimMatrix_(1e-12);
// porosities
finePorosity_ = 0.3;
coarsePorosity_ = 0.3;
// residual saturations
fineMaterialParams_.setResidualSaturation(liquidPhaseIdx, 0.2);
fineMaterialParams_.setResidualSaturation(gasPhaseIdx, 0.0);
coarseMaterialParams_.setResidualSaturation(liquidPhaseIdx, 0.2);
coarseMaterialParams_.setResidualSaturation(gasPhaseIdx, 0.0);
// parameters for the Brooks-Corey law
2013-11-06 07:50:01 -06:00
fineMaterialParams_.setEntryPressure(1e4);
coarseMaterialParams_.setEntryPressure(5e3);
fineMaterialParams_.setLambda(2.0);
coarseMaterialParams_.setLambda(2.0);
2013-11-06 07:50:01 -06:00
fineMaterialParams_.finalize();
coarseMaterialParams_.finalize();
// parameters for the somerton law of heat conduction
computeHeatCondParams_(fineHeatCondParams_, finePorosity_);
computeHeatCondParams_(coarseHeatCondParams_, coarsePorosity_);
}
/*!
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
* \copydoc FvBaseMultiPhaseProblem::registerParameters
*/
static void registerParameters()
{
ParentType::registerParameters();
EWOMS_REGISTER_PARAM(TypeTag, Scalar, FluidSystemTemperatureLow,
"The lower temperature [K] for tabulation of the "
"fluid system");
EWOMS_REGISTER_PARAM(TypeTag, Scalar, FluidSystemTemperatureHigh,
"The upper temperature [K] for tabulation of the "
"fluid system");
EWOMS_REGISTER_PARAM(TypeTag, int, FluidSystemNumTemperature,
"The number of intervals between the lower and "
"upper temperature");
EWOMS_REGISTER_PARAM(TypeTag, Scalar, FluidSystemPressureLow,
"The lower pressure [Pa] for tabulation of the "
"fluid system");
EWOMS_REGISTER_PARAM(TypeTag, Scalar, FluidSystemPressureHigh,
"The upper pressure [Pa] for tabulation of the "
"fluid system");
EWOMS_REGISTER_PARAM(TypeTag, int, FluidSystemNumPressure,
"The number of intervals between the lower and "
"upper pressure");
EWOMS_REGISTER_PARAM(TypeTag, Scalar, Temperature,
"The temperature [K] in the reservoir");
EWOMS_REGISTER_PARAM(TypeTag, Scalar, MaxDepth,
"The maximum depth [m] of the reservoir");
EWOMS_REGISTER_PARAM(TypeTag, std::string, SimulationName,
"The name of the simulation used for the output "
"files");
}
/*!
* \name Problem parameters
*/
//! \{
/*!
* \copydoc VcfvProblem::name
*/
std::string name() const
{
std::ostringstream oss;
oss << EWOMS_GET_PARAM(TypeTag, std::string, SimulationName)
<< "_" << Model::name();
if (GET_PROP_VALUE(TypeTag, EnableEnergy))
oss << "_ni";
oss << "_" << Model::discretizationName();
return oss.str();
}
/*!
* \copydoc VcfvProblem::postTimeStep
*/
void postTimeStep()
{
// Calculate storage terms
PrimaryVariables storageL, storageG;
this->model().globalPhaseStorage(storageL, /*phaseIdx=*/0);
this->model().globalPhaseStorage(storageG, /*phaseIdx=*/1);
// Write mass balance information for rank 0
if (this->gridView().comm().rank() == 0) {
std::cout << "Storage: liquid=[" << storageL << "]"
<< " gas=[" << storageG << "]\n" << std::flush;
}
}
/*!
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
* \copydoc FvBaseMultiPhaseProblem::temperature
*/
template <class Context>
Scalar temperature(const Context &context, int spaceIdx, int timeIdx) const
{
const auto &pos = context.pos(spaceIdx, timeIdx);
if (inHighTemperatureRegion_(pos))
return temperature_ + 100;
return temperature_;
}
/*!
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
* \copydoc FvBaseMultiPhaseProblem::intrinsicPermeability
*/
template <class Context>
const DimMatrix &intrinsicPermeability(const Context &context, int spaceIdx,
int timeIdx) const
{
const GlobalPosition &pos = context.pos(spaceIdx, timeIdx);
if (isFineMaterial_(pos))
return fineK_;
return coarseK_;
}
/*!
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
* \copydoc FvBaseMultiPhaseProblem::porosity
*/
template <class Context>
Scalar porosity(const Context &context, int spaceIdx, int timeIdx) const
{
const GlobalPosition &pos = context.pos(spaceIdx, timeIdx);
if (isFineMaterial_(pos))
return finePorosity_;
return coarsePorosity_;
}
/*!
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
* \copydoc FvBaseMultiPhaseProblem::materialLawParams
*/
template <class Context>
const MaterialLawParams &materialLawParams(const Context &context,
int spaceIdx, int timeIdx) const
{
const GlobalPosition &pos = context.pos(spaceIdx, timeIdx);
if (isFineMaterial_(pos))
return fineMaterialParams_;
return coarseMaterialParams_;
}
/*!
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
* \copydoc FvBaseMultiPhaseProblem::heatCapacitySolid
*
* In this case, we assume the rock-matrix to be granite.
*/
template <class Context>
Scalar heatCapacitySolid(const Context &context, int spaceIdx,
int timeIdx) const
{
return 790 // specific heat capacity of granite [J / (kg K)]
* 2700; // density of granite [kg/m^3]
}
/*!
Implement the element centered finite volume spatial discretization This makes eWoms multi-discretization capable. Along the way, this fixes some bugs and does a medium sized reorganization of the source tree. This is a squashed patch of the following commits: -------- 1st commit message: add initial version of the element centered finite volume discretization currently, it is a misnomer as it is just a copy of the vertex centered discretization plus some renames... -------- 2nd commit message: rename [VE]cfvModel -> [VE]cfvDiscretization -------- 3rd commit message: ecfv: prelimary changes required to make it compile but not work yet... -------- 4th commit message: Rename *FvElementGeometry to *Stencil "Stencil" seems to be the standard expression for this concept... (also, it is not specific to finite volume methods and is shorter.) -------- 5th commit message: refactor the stencil class for the element centered finite volume discretization -------- 6th commit message: ECFV: some work on the stencil class -------- 7th commit message: ECFV: make the boundary handling code compile -------- 8th commit message: rename elemContext() to elementContext() -------- 9th commit message: ECFV: make the VTK output modules compile -------- 10th commit message: stencil: introduce the concept of primary DOFs also save an vector of all element pointers in the stencil. -------- 11th commit message: ECFV: try to fix assembly; add missing timeIdx arguments to the num*() methods -------- 12th commit message: ECFV: fix stupid mistake in the assembler -------- 13th commit message: ECFV: remove a few implicit DOF == vertex assumptions the black-oil example now runs without valgrind complaints until it encounters a negative oil mole fraction. -------- 14th commit message: VCFV: make everything compile again all vertex centered FV examples should now work again... -------- 15th commit message: rename [ev]cfvmodel.hh to [ev]cfvdiscretization.hh the classes have already been renamed. -------- 16th commit message: ECFV: make it work to the point where it can write out the initial solution. -------- 17th commit message: ECFV: make it work the local residual/jacobian needed some work in distinguishing primary and secondary DOFs and there was an minor issue with the serialization code. for some reason, it seems still not correct. (-> convergence is too slow.) -------- 18th commit message: VCFV: make it compile for the black oil model again -------- 19th commit message: VCFV: make it compile with the remaining models again -------- 20th commit message: flash model: make it work with ECFV although this breaks its compatibility with VCFV. (-> next commit) -------- 21st commit message: adapt the VCFV to make it compatible with the flash model again -------- 22nd commit message: make all models compile with VCFV again -------- 23rd commit message: VCFV: more cleanups of the stencil VcfvStencil now does not have any public attributes anymore. TODO: do not export attributes in the SubControlVolume and SubControlVolumeFace classes. -------- 24th commit message: VCFV: actually update the element pointer -------- 25th commit message: change the blackoil model back to ECFV -------- 26th commit message: immiscible model: make it compatible with the ECFV discretization -------- 27th commit message: PVS model: make it work with ECFV -------- 28th commit message: NCP model: make it work with ECFV -------- 29th commit message: rename Vcfv*VelocityModule to *VelocityModule -------- 30th commit message: richards model: make it work with ECFV -------- 31st commit message: unify the ECFV and the VCFV VTK output modules and other cleanups -------- 32nd commit message: unify the common code of the VCFV and the ECFV disctretizations -------- 33rd commit message: unify the element contexts between element and vertex centered finite volumes -------- 34th commit message: unify the local jacobian class of the finite volume discretizations -------- 35th commit message: replace [VE]vcf(LocalResidual|ElementContext|BoundaryContext|ConstraintsContext) by generic code -------- 36th commit message: replace the [EV]cfvLocalResidual by generic code -------- 37th commit message: unify the MultiPhaseProblem and Problem classes, introduce NullBorderListCreator -------- 38th commit message: remove the discretization specific boundary context -------- 39th commit message: unify the [EV]cfvDiscretization classes -------- 40th commit message: Unify [EV]cfvMultiPhaseFluxVariables -------- 41st commit message: Unify the [EC]cfvNewton* classes -------- 42nd commit message: Unify [EV]cfvVolumeVariables -------- 43rd commit message: unify [EV]cfvAssembler -------- 44th commit message: unified flux variables: fix stupid mistake when calculating pressure gradients -------- 45th commit message: unify what's to unify for the [EV]CFV properties -------- 46th commit message: make the method to calculate gradients and values at flux approximation points changeable Currently, this is used by the vertex centered finite volume method to be able to use P1-finite element gradients instead of two-point ones... -------- 47th commit message: make the restart code work correctly, use the correct DofMapper for VCFV -------- 48th commit message: actually use the gradient calculator in a model the immiscible model in this case -------- 49th commit message: move some files around to where they belong, use the new gradient calculation code in all models TODO: proper handling of boundary gradients -------- 50th commit message: fix the stokes model currently it only works with the vertex centered finite volume discretization, but the plan is to soon move it to a staggered grid scheme anyway... -------- 51st commit message: move all models back to using the vertex centered finite volume discretization by default -------- 52nd commit message: models: some variable renames and documentation fixes - scv -> dof - vert -> dof - vertex -> dof - replace 'VCFV' - fix some typos -------- 53rd commit message: don't expect UG anymore since it is quite non-free and hard to get. we now use ALUGrid instead! -------- 54th commit message: temporarily disable jacobian recycling -------- 55th commit message: fix writing/reading restart files using the generic code -------- 56th commit message: fix bug where fluxes were only counted once in the stencil this only affected the vertex centered finite volumes discretization... -------- 57th commit message: boundary gradients: use the center of the sub-control volume adjacent to a boundary segment -------- 58th commit message: make it compile on GCC -------- 59th commit message: get rid of most hacks for this, partial reassemble and jacobian recycling was brought back. For the this and the remaining stuff the main trick is the introduction of the GridCommHandleFactory concept which constructs communication handles suited for the respective spatial discretization... -------- 60th commit message: fix a few annoying bugs first, default the convergence criterion for the linear solver did not honor the initial residual which lead to linear solver breakdowns, then some debugging code was left in the discrete fracture model and then there was a bug in the TP gradient approximation class... this has the consequence that we need a new reference solution for the discrete fracture problem... -------- 61st commit message: iterative linear solver: remove the code for the non-default convergence criteria -------- 62nd commit message: provide the FE cache instead of the local FE this fixes a segfault in the stokes model caused by the fact that the local FE was not initialized at this point. -------- 63rd commit message: (Navier-)Stokes: fix bug due to the transition to unit normals now, all tests pass for this branch. The only things which need to be fixed are some annoying performance regressions compared to master and some bug in the splices feature of the property system... -------- 64th commit message: some fix for the local residual of the immiscible model -------- 65th commit message: Navier-Stokes: implement SCV center gradients There seems to be a bug in the previous implementation (the jacobian inverse transposed is evaluated using the local, not the global geometry), so the reference solution for the stokes2c test problem has also been updated... -------- 66th commit message: remove the ALUGrid specialization of the LensGridCreator and the YaspGrid one for the fingerproblem using different grid seems to sometimes cause a different vertex order, which in turn causes the respective test to fail if the reference solution was computed using the other grid... -------- 67th commit message: VCFV: use the correct BorderListCreator this makes MPI parallel computations work again. apart from performance regressions, this branch does not exhibit any known regressions compared to master anymore... -------- 68th commit message: make verything compile with the element centered finite volume discretization except the Navier-Stokes and the two-phase DFM models, of course... -------- 69th commit message: minor fixes - make the navier-stokes model slighly more generic by using the proper (in,ex)teriorIndex() methods on sub-control volumes - make the signature of the calculateValue() template method of the common two-point gradient approximator match the one of the vertex centered finite volume one -------- 70th commit message: fix fallout from the Big Rebase -------- 71st commit message: ECFV: some bugs in the boundary -------- 72nd commit message: make computeFlux() compute area-specific quantities -------- 73rd commit message: fix more bugs in the element centered FV discretization now eWoms should match Dumux pretty closely... -------- 74th commit message: coalesce the common code of the multi phase porous medium models into "MultiPhaseBaseModel" -------- 75th commit message: update reference solutions these were changed because of the screw-up with the area of boundary segments... -------- 76th commit message: rename "ImplicitBase" to "FvBase" because in eWoms, everything is implicit and these are currently the base classes for all finite volume discretizations. -------- 77th commit message: make the spatial discretization selectable using a splice This requires an opm-core with a the patches from https://github.com/OPM/opm-core/pull/446 merged... -------- 78th commit message: rename the properties used for splices to *Splice -------- 79th commit message: move the files in 'tests/models' to 'tests' since 'tests' was empty except for the 'models' subdirectory... -------- 80th commit message: improve and fix the tutorial -------- 81st commit message: remove the -fno-strict-aliasing flag from the provided option files seems like recent versions of Dune have been adapted... -------- 82nd commit message: also compile all CO2 injection simulations using the element centered finite volume discretization -------- 83rd commit message: PVS model: make it work properly with the element-centered finite volume discretiation because DOF != number of vertices
2013-12-12 05:52:44 -06:00
* \copydoc FvBaseMultiPhaseProblem::heatConductionParams
*/
template <class Context>
const HeatConductionLawParams &
heatConductionParams(const Context &context, int spaceIdx, int timeIdx) const
{
const GlobalPosition &pos = context.pos(spaceIdx, timeIdx);
if (isFineMaterial_(pos))
return fineHeatCondParams_;
return coarseHeatCondParams_;
}
//! \}
/*!
* \name Boundary conditions
*/
//! \{
/*!
* \copydoc VcfvProblem::boundary
*/
template <class Context>
void boundary(BoundaryRateVector &values, const Context &context,
int spaceIdx, int timeIdx) const
{
const auto &pos = context.pos(spaceIdx, timeIdx);
if (onLeftBoundary_(pos)) {
Opm::CompositionalFluidState<Scalar, FluidSystem> fs;
initialFluidState_(fs, context, spaceIdx, timeIdx);
fs.checkDefined();
// impose an freeflow boundary condition
values.setFreeFlow(context, spaceIdx, timeIdx, fs);
}
else if (onInlet_(pos)) {
RateVector massRate(0.0);
massRate[contiCO2EqIdx] = -1e-3; // [kg/(m^3 s)]
Opm::ImmiscibleFluidState<Scalar, FluidSystem> fs;
fs.setSaturation(gasPhaseIdx, 1.0);
fs.setPressure(gasPhaseIdx,
context.volVars(spaceIdx, timeIdx).fluidState().pressure(
gasPhaseIdx));
fs.setTemperature(temperature(context, spaceIdx, timeIdx));
typename FluidSystem::ParameterCache paramCache;
paramCache.updatePhase(fs, gasPhaseIdx);
Scalar h = FluidSystem::enthalpy(fs, paramCache, gasPhaseIdx);
// impose an forced inflow boundary condition
values.setMassRate(massRate);
values.setEnthalpyRate(massRate[contiCO2EqIdx] * h);
}
else
// no flow on top and bottom
values.setNoFlow();
}
// \}
/*!
* \name Volume terms
*/
//! \{
/*!
* \copydoc VcfvProblem::initial
*/
template <class Context>
void initial(PrimaryVariables &values, const Context &context, int spaceIdx,
int timeIdx) const
{
Opm::CompositionalFluidState<Scalar, FluidSystem> fs;
initialFluidState_(fs, context, spaceIdx, timeIdx);
// const auto &matParams = this->materialLawParams(context, spaceIdx,
// timeIdx);
// values.assignMassConservative(fs, matParams, /*inEquilibrium=*/true);
values.assignNaive(fs);
}
/*!
* \copydoc VcfvProblem::source
*
* For this problem, the source term of all components is 0
* everywhere.
*/
template <class Context>
void source(RateVector &rate, const Context &context, int spaceIdx,
int timeIdx) const
{ rate = Scalar(0.0); }
//! \}
private:
template <class Context, class FluidState>
void initialFluidState_(FluidState &fs, const Context &context,
int spaceIdx, int timeIdx) const
{
const GlobalPosition &pos = context.pos(spaceIdx, timeIdx);
//////
// set temperature
//////
fs.setTemperature(temperature(context, spaceIdx, timeIdx));
//////
// set saturations
//////
fs.setSaturation(FluidSystem::liquidPhaseIdx, 1.0);
fs.setSaturation(FluidSystem::gasPhaseIdx, 0.0);
//////
// set pressures
//////
Scalar densityL = FluidSystem::Brine::liquidDensity(temperature_, 1e5);
Scalar depth = maxDepth_ - pos[dim - 1];
Scalar pl = 1e5 - densityL * this->gravity()[dim - 1] * depth;
Scalar pC[numPhases];
const auto &matParams
= this->materialLawParams(context, spaceIdx, timeIdx);
MaterialLaw::capillaryPressures(pC, matParams, fs);
fs.setPressure(liquidPhaseIdx, pl + (pC[liquidPhaseIdx] - pC[liquidPhaseIdx]));
fs.setPressure(gasPhaseIdx, pl + (pC[gasPhaseIdx] - pC[liquidPhaseIdx]));
//////
// set composition of the liquid phase
//////
fs.setMoleFraction(liquidPhaseIdx, CO2Idx, 0.005);
fs.setMoleFraction(liquidPhaseIdx, BrineIdx,
1.0 - fs.moleFraction(liquidPhaseIdx, CO2Idx));
typename FluidSystem::ParameterCache paramCache;
typedef Opm::ComputeFromReferencePhase<Scalar, FluidSystem> CFRP;
CFRP::solve(fs, paramCache,
/*refPhaseIdx=*/liquidPhaseIdx,
/*setViscosity=*/true,
/*setEnthalpy=*/true);
}
bool onLeftBoundary_(const GlobalPosition &pos) const
{ return pos[0] < eps_; }
bool onRightBoundary_(const GlobalPosition &pos) const
2013-12-27 11:25:54 -06:00
{ return pos[0] > this->boundingBoxMax()[0] - eps_; }
bool onInlet_(const GlobalPosition &pos) const
{ return onRightBoundary_(pos) && (5 < pos[1]) && (pos[1] < 15); }
bool inHighTemperatureRegion_(const GlobalPosition &pos) const
{ return (pos[0] > 20) && (pos[0] < 30) && (pos[1] > 5) && (pos[1] < 35); }
void computeHeatCondParams_(HeatConductionLawParams &params, Scalar poro)
{
Scalar lambdaWater = 0.6;
Scalar lambdaGranite = 2.8;
Scalar lambdaWet = std::pow(lambdaGranite, (1 - poro))
* std::pow(lambdaWater, poro);
Scalar lambdaDry = std::pow(lambdaGranite, (1 - poro));
params.setFullySaturatedLambda(gasPhaseIdx, lambdaDry);
params.setFullySaturatedLambda(liquidPhaseIdx, lambdaWet);
params.setVacuumLambda(lambdaDry);
}
bool isFineMaterial_(const GlobalPosition &pos) const
{ return pos[dim - 1] > fineLayerBottom_; }
DimMatrix fineK_;
DimMatrix coarseK_;
Scalar fineLayerBottom_;
Scalar finePorosity_;
Scalar coarsePorosity_;
MaterialLawParams fineMaterialParams_;
MaterialLawParams coarseMaterialParams_;
HeatConductionLawParams fineHeatCondParams_;
HeatConductionLawParams coarseHeatCondParams_;
Scalar temperature_;
Scalar maxDepth_;
Scalar eps_;
int nTemperature_;
int nPressure_;
Scalar pressureLow_, pressureHigh_;
Scalar temperatureLow_, temperatureHigh_;
};
} // namespace Ewoms
#endif