opm-simulators/tests/test_transmissibilitymultipliers.cpp
Kai Bao 75e6bcefbb fixing test_transmissibilitymultipliers
due to the change of the PVTO table policy from the parser
2018-03-07 10:01:34 +01:00

331 lines
12 KiB
C++

/*
Copyright 2014 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 3 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/>.
*/
#include <config.h>
#define BOOST_TEST_MODULE TransmissibilityMultipliers
#include <opm/autodiff/GeoProps.hpp>
#include <opm/autodiff/BlackoilPropsAdFromDeck.hpp>
#include <opm/grid/GridManager.hpp>
#include <opm/common/utility/parameters/ParameterGroup.hpp>
#include <opm/parser/eclipse/Parser/Parser.hpp>
#include <opm/parser/eclipse/Parser/ParseContext.hpp>
#include <opm/parser/eclipse/Deck/Deck.hpp>
#include <opm/parser/eclipse/EclipseState/EclipseState.hpp>
#if HAVE_OPM_GRID
#include <dune/common/version.hh>
#include <dune/common/parallel/mpihelper.hh>
#include <opm/grid/CpGrid.hpp>
#endif
#include <opm/grid/GridHelpers.hpp>
#include <boost/test/unit_test.hpp>
#include <string>
#include <stdlib.h>
// as surprising as it seems, this is a minimal deck required to get to the point where
// the transmissibilities are calculated. The problem here is that the OPM property
// objects mix fluid and rock properties, so that all properties need to be defined even
// if they are not of interest :/
std::string deckPreMult =
"RUNSPEC\n"
"TABDIMS\n"
"/\n"
"OIL\n"
"GAS\n"
"WATER\n"
"METRIC\n"
"DIMENS\n"
"2 2 2/\n"
"GRID\n"
"DXV\n"
"1.0 2.0 /\n"
"DYV\n"
"3.0 4.0 /\n"
"DZV\n"
"5.0 6.0/\n"
"TOPS\n"
"4*100 /\n";
std::string deckPostMult =
"PROPS\n"
"DENSITY\n"
"100 200 300 /\n"
"PVTW\n"
" 100 1 1e-6 1.0 0 /\n"
"PVDG\n"
"1 1 1e-2\n"
"100 0.25 2e-2 /\n"
"PVTO\n"
"1e-3 1.0 1.05 1.0\n"
" 100.0 1.0 1.0\n"
"/\n"
"1.0 10.0 1.1 0.9\n"
" 100.0 1.05 0.9\n"
"/\n"
"/\n"
"SWOF\n"
"0.0 0.0 1.0 0.0\n"
"1.0 1.0 0.0 1.0/\n"
"SGOF\n"
"0.0 0.0 1.0 0.0\n"
"1.0 1.0 0.0 1.0/\n"
"PORO\n"
"8*0.3 /\n"
"PERMX\n"
"8*1 /\n"
"SCHEDULE\n"
"TSTEP\n"
"1.0 2.0 3.0 4.0 /\n";
std::string origDeckString = deckPreMult + deckPostMult;
std::string multDeckString =
deckPreMult +
"MULTX\n" +
"1 2 3 4 5 6 7 8 /\n" +
"MULTY\n" +
"1 2 3 4 5 6 7 8 /\n" +
"MULTZ\n" +
"1 2 3 4 5 6 7 8 /\n" +
deckPostMult;
std::string multMinusDeckString =
deckPreMult +
"MULTX-\n" +
"1 2 3 4 5 6 7 8 /\n" +
"MULTY-\n" +
"1 2 3 4 5 6 7 8 /\n" +
"MULTZ-\n" +
"1 2 3 4 5 6 7 8 /\n" +
deckPostMult;
// the NTG values get harmonically averaged for the transmissibilites. If the value
// is the same on both sides, the averaging buils down to a no-op, though...
std::string ntgDeckString =
deckPreMult +
"NTG\n" +
"8*0.5 /\n" +
deckPostMult;
/// \brief The check of the transmissibility values
///
/// Written along the UgGridHelpers interface to make it usable for both
/// UnstructuredGrid and CpGrid.
/// \tparam Grid The type of the grid.
/// \param grid The grid where the transmissibility values live
/// \param origGeology The originaly geology without multipliers.
/// \param multGeology The geology using posititve multipliers.
/// \param multMinusGeology The geology uing negative multipliers
/// \param ntgGeology
template<class G>
void checkTransmissibilityValues(const G& grid,
const Opm::DerivedGeology& origGeology,
const Opm::DerivedGeology& multGeology,
const Opm::DerivedGeology& multMinusGeology,
const Opm::DerivedGeology& ntgGeology);
BOOST_AUTO_TEST_CASE(TransmissibilityMultipliersLegacyGridInterface)
{
Opm::ParameterGroup param;
Opm::Parser parser;
Opm::ParseContext parseContext;
/////
// create a DerivedGeology object without any multipliers involved
auto origDeck = parser.parseString(origDeckString, parseContext);
Opm::EclipseState origEclipseState(origDeck , parseContext);
auto origGridManager = std::make_shared<Opm::GridManager>(origEclipseState.getInputGrid());
auto origProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(origDeck, origEclipseState, *(origGridManager->c_grid()));
Opm::DerivedGeology origGeology(*(origGridManager->c_grid()), *origProps, origEclipseState, false);
/////
/////
// create a DerivedGeology object _with_ transmissibility multipliers involved
auto multDeck = parser.parseString(multDeckString, parseContext);
Opm::EclipseState multEclipseState(multDeck, parseContext);
auto multGridManager = std::make_shared<Opm::GridManager>(multEclipseState.getInputGrid());
auto multProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(multDeck, multEclipseState, *(multGridManager->c_grid()));
Opm::DerivedGeology multGeology(*(multGridManager->c_grid()), *multProps, multEclipseState, false);
/////
/////
// create a DerivedGeology object _with_ transmissibility multipliers involved for
// the negative faces
auto multMinusDeck = parser.parseString(multMinusDeckString, parseContext);
Opm::EclipseState multMinusEclipseState(multMinusDeck , parseContext);
auto multMinusGridManager = std::make_shared<Opm::GridManager>(multMinusEclipseState.getInputGrid());
auto multMinusProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(multMinusDeck, multMinusEclipseState, *(multMinusGridManager->c_grid()));
Opm::DerivedGeology multMinusGeology(*(multMinusGridManager->c_grid()), *multMinusProps, multMinusEclipseState, false);
/////
/////
// create a DerivedGeology object with the NTG keyword involved
auto ntgDeck = parser.parseString(ntgDeckString, parseContext);
Opm::EclipseState ntgEclipseState(ntgDeck, parseContext);
auto ntgGridManager = std::make_shared<Opm::GridManager>(ntgEclipseState.getInputGrid());
auto ntgProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(ntgDeck, ntgEclipseState, *(ntgGridManager->c_grid()));
Opm::DerivedGeology ntgGeology(*(ntgGridManager->c_grid()), *ntgProps, ntgEclipseState, false);
/////
checkTransmissibilityValues(*(origGridManager->c_grid()), origGeology, multGeology,
multMinusGeology, ntgGeology);
}
template<class G>
void checkTransmissibilityValues(const G& grid,
const Opm::DerivedGeology& origGeology,
const Opm::DerivedGeology& multGeology,
const Opm::DerivedGeology& multMinusGeology,
const Opm::DerivedGeology& ntgGeology)
{
// compare the transmissibilities (note that for this we assume that the multipliers
// do not change the grid topology)
int numFaces=Opm::UgGridHelpers::numFaces(grid);
typename Opm::UgGridHelpers::FaceCellTraits<G>::Type face_cells=
Opm::UgGridHelpers::faceCells(grid);
for (int faceIdx = 0; faceIdx < numFaces; ++ faceIdx) {
// in DUNE-speak, a face here is more like an intersection which is not specific
// to a codim-0 entity (i.e., cell)
// get the cell indices of the compressed grid for the face's interior and
// exterior cell
int insideCellIdx = face_cells(faceIdx, 0);
int outsideCellIdx = face_cells(faceIdx, 1);
if (insideCellIdx < 0 || outsideCellIdx < 0) {
// do not consider cells at the domain boundary: Their would only be used for
// Dirichlet-like boundary conditions which have not been implemented so
// far...
continue;
}
// translate these to canonical indices (i.e., the logically Cartesian ones used by the deck)
const int* global_cell=Opm::UgGridHelpers::globalCell(grid);
if (global_cell) {
insideCellIdx = global_cell[insideCellIdx];
outsideCellIdx = global_cell[outsideCellIdx];
}
double origTrans = origGeology.transmissibility()[faceIdx];
double multTrans = multGeology.transmissibility()[faceIdx];
double multMinusTrans = multMinusGeology.transmissibility()[faceIdx];
double ntgTrans = ntgGeology.transmissibility()[faceIdx];
BOOST_CHECK_CLOSE(origTrans*(insideCellIdx + 1), multTrans, 1e-6);
BOOST_CHECK_CLOSE(origTrans*(outsideCellIdx + 1), multMinusTrans, 1e-6);
const int* cartdims = Opm::UgGridHelpers::cartDims(grid);
int insideCellKIdx = insideCellIdx/(cartdims[0]*cartdims[1]);
int outsideCellKIdx = outsideCellIdx/(cartdims[0]*cartdims[1]);
if (insideCellKIdx == outsideCellKIdx)
// NTG only reduces the permebility of the X-Y plane
BOOST_CHECK_CLOSE(origTrans*0.5, ntgTrans, 1e-6);
}
}
#if HAVE_OPM_GRID
BOOST_AUTO_TEST_CASE(TransmissibilityMultipliersCpGrid)
{
int argc = 1;
char **argv;
argv = new (char*);
argv[0] = strdup("footest");
Dune::MPIHelper::instance(argc, argv);
Opm::ParameterGroup param;
Opm::Parser parser;
Opm::ParseContext parseContext;
/////
// create a DerivedGeology object without any multipliers involved
auto origDeck = parser.parseString(origDeckString , parseContext);
Opm::EclipseState origEclipseState(origDeck , parseContext);
auto origGrid = std::make_shared<Dune::CpGrid>();
origGrid->processEclipseFormat(origEclipseState.getInputGrid(), 0.0, false);
auto origProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(origDeck,
origEclipseState,
*origGrid);
Opm::DerivedGeology origGeology(*origGrid, *origProps, origEclipseState, false);
/////
/////
// create a DerivedGeology object _with_ transmissibility multipliers involved
auto multDeck = parser.parseString(multDeckString,parseContext);
Opm::EclipseState multEclipseState(multDeck, parseContext);
auto multGrid = std::make_shared<Dune::CpGrid>();
multGrid->processEclipseFormat(multEclipseState.getInputGrid(), 0.0, false);
auto multProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(multDeck, multEclipseState, *multGrid);
Opm::DerivedGeology multGeology(*multGrid, *multProps, multEclipseState, false);
/////
/////
// create a DerivedGeology object _with_ transmissibility multipliers involved for
// the negative faces
const auto& multMinusDeck = parser.parseString(multMinusDeckString , parseContext);
Opm::EclipseState multMinusEclipseState(multMinusDeck, parseContext);
auto multMinusGrid = std::make_shared<Dune::CpGrid>();
multMinusGrid->processEclipseFormat(multMinusEclipseState.getInputGrid(), 0.0, false);
auto multMinusProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(multMinusDeck, multMinusEclipseState, *multMinusGrid);
Opm::DerivedGeology multMinusGeology(*multMinusGrid, *multMinusProps, multMinusEclipseState,
false);
/////
/////
// create a DerivedGeology object with the NTG keyword involved
auto ntgDeck = parser.parseString(ntgDeckString, parseContext);
Opm::EclipseState ntgEclipseState(ntgDeck, parseContext);
auto ntgGrid = std::make_shared<Dune::CpGrid>();
ntgGrid->processEclipseFormat(ntgEclipseState.getInputGrid(), 0.0, false);
auto ntgProps = std::make_shared<Opm::BlackoilPropsAdFromDeck>(ntgDeck, ntgEclipseState, *ntgGrid);
Opm::DerivedGeology ntgGeology(*ntgGrid, *ntgProps, ntgEclipseState, false);
/////
return checkTransmissibilityValues(*origGrid, origGeology, multGeology,
multMinusGeology, ntgGeology);
}
#endif