opm-simulators/opm/core/props/satfunc/RelpermDiagnostics.cpp
2023-02-24 09:41:25 +01:00

900 lines
38 KiB
C++

/*
Copyright 2015 Statoil ASA.
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/>.
*/
#if HAVE_CONFIG_H
#include "config.h"
#endif // HAVE_CONFIG_H
#include <opm/core/props/satfunc/RelpermDiagnostics.hpp>
#include <opm/core/props/phaseUsageFromDeck.hpp>
#include <opm/material/fluidmatrixinteractions/EclEpsGridProperties.hpp>
#include <opm/material/fluidmatrixinteractions/EclEpsScalingPoints.hpp>
#include <opm/input/eclipse/EclipseState/EclipseState.hpp>
#include <opm/input/eclipse/EclipseState/Grid/SatfuncPropertyInitializers.hpp>
#include <opm/input/eclipse/EclipseState/Runspec.hpp>
#include <opm/input/eclipse/EclipseState/Tables/TableManager.hpp>
#include <opm/input/eclipse/EclipseState/Tables/SgfnTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/SgofTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/SgwfnTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/SlgofTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/Sof2Table.hpp>
#include <opm/input/eclipse/EclipseState/Tables/Sof3Table.hpp>
#include <opm/input/eclipse/EclipseState/Tables/SsfnTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/SwfnTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/SwofTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/WsfTable.hpp>
#include <opm/input/eclipse/EclipseState/Tables/GsfTable.hpp>
#include <opm/grid/CpGrid.hpp>
#include <opm/grid/polyhedralgrid.hh>
#ifdef HAVE_DUNE_ALUGRID
#include <dune/alugrid/grid.hh>
#include <dune/alugrid/3d/gridview.hh>
#endif // HAVE_DUNE_ALUGRID
namespace Opm {
bool RelpermDiagnostics::phaseCheck_(const EclipseState& es)
{
const auto& phases = es.runspec().phases();
bool hasWater = phases.active( Phase::WATER );
bool hasGas = phases.active( Phase::GAS );
bool hasOil = phases.active( Phase::OIL );
bool hasSolvent = phases.active( Phase::SOLVENT );
if (hasWater && !hasGas && !hasOil && !hasSolvent) {
const std::string msg = "System: Single phase Water system. Nothing to check";
OpmLog::info(msg);
return false;
}
if (!hasWater && hasGas && !hasOil && !hasSolvent) {
const std::string msg = "System: Single phase Gas system. Nothing to check";
OpmLog::info(msg);
return false;
}
if (!hasWater && !hasGas && hasOil && !hasSolvent) {
const std::string msg = "System: Single phase Oil system. Nothing to check";
OpmLog::info(msg);
return false;
}
if (hasWater && hasGas && !hasOil && !hasSolvent) {
const std::string msg = "System: Water-Gas system.";
OpmLog::info(msg);
fluidSystem_ = FluidSystem::WaterGas;
}
if (hasWater && hasOil && !hasGas && !hasSolvent) {
const std::string msg = "System: Oil-Water system.";
OpmLog::info(msg);
fluidSystem_ = FluidSystem::OilWater;
}
if (hasOil && hasGas && !hasWater && !hasSolvent) {
const std::string msg = "System: Oil-Gas system.";
OpmLog::info(msg);
fluidSystem_ = FluidSystem::OilGas;
}
if (hasOil && hasWater && hasGas && !hasSolvent) {
const std::string msg = "System: Black-oil system.";
OpmLog::info(msg);
fluidSystem_ = FluidSystem::BlackOil;
}
if (hasSolvent) {
const std::string msg = "System: Solvent model.";
OpmLog::info(msg);
fluidSystem_ = FluidSystem::Solvent;
}
return true;
}
void RelpermDiagnostics::satFamilyCheck_(const EclipseState& eclState)
{
const PhaseUsage pu = phaseUsageFromDeck(eclState);
const auto& tableManager = eclState.getTableManager();
const TableContainer& swofTables = tableManager.getSwofTables();
const TableContainer& slgofTables= tableManager.getSlgofTables();
const TableContainer& sgofTables = tableManager.getSgofTables();
const TableContainer& swfnTables = tableManager.getSwfnTables();
const TableContainer& sgfnTables = tableManager.getSgfnTables();
const TableContainer& sof3Tables = tableManager.getSof3Tables();
const TableContainer& sof2Tables = tableManager.getSof2Tables();
const TableContainer& sgwfnTables= tableManager.getSgwfnTables();
const SwofletTable& swofletTable = tableManager.getSwofletTable();
const SgofletTable& sgofletTable = tableManager.getSgofletTable();
const TableContainer& gsfTables = tableManager.getGsfTables();
const TableContainer& wsfTables = tableManager.getWsfTables();
// Family I test.
bool family1 = pu.phase_used[BlackoilPhases::Liquid];
if (pu.phase_used[BlackoilPhases::Aqua]) {
family1 = family1 && (!swofTables.empty() || !swofletTable.empty());
}
if (pu.phase_used[BlackoilPhases::Vapour]) {
family1 = family1 && ((!sgofTables.empty() || !sgofletTable.empty()) || !slgofTables.empty());
}
// Family II test.
bool family2 = true;
if (pu.phase_used[BlackoilPhases::Aqua]) {
family2 = family2 && (!swfnTables.empty() || !sgwfnTables.empty());
}
if (pu.phase_used[BlackoilPhases::Liquid]) {
family2 = family2 && (!sof3Tables.empty() || !sof2Tables.empty());
}
if (pu.phase_used[BlackoilPhases::Vapour]) {
family2 = family2 && (!sgfnTables.empty() || !sgwfnTables.empty());
}
bool family3 = !gsfTables.empty() && !wsfTables.empty();
if (family3) {
const auto& phases = eclState.runspec().phases();
const bool co2store = eclState.runspec().co2Storage();
if ( !(co2store && phases.active(Phase::GAS) && phases.active(Phase::WATER))) {
const std::string msg = "Relative permeability input format: Saturation Family III. \n \
Only valid for CO2STORE case with GAS and WATER.";
OpmLog::info(msg);
}
satFamily_ = SaturationFunctionFamily::FamilyIII;
const std::string msg = "Relative permeability input format: Saturation Family III (GSF/WSF).";
OpmLog::info(msg);
return;
}
if (family1 && family2) {
const std::string msg = "Saturation families should not be mixed.\n Use either SGOF and SWOF or SGFN, SWFN and SOF3";
OpmLog::error(msg);
}
if (!family1 && !family2) {
const std::string msg = "Saturations function must be specified using either \n \
family 1, family 2 or family3 keywords \n \
Use either SGOF and SWOF or SGFN, SWFN and SOF3.";
OpmLog::error(msg);
}
if (family1 && !family2) {
satFamily_ = SaturationFunctionFamily::FamilyI;
const std::string msg = "Relative permeability input format: Saturation Family I.";
OpmLog::info(msg);
}
if (!family1 && family2) {
satFamily_ = SaturationFunctionFamily::FamilyII;
const std::string msg = "Relative permeability input format: Saturation Family II.";
OpmLog::info(msg);
}
}
void RelpermDiagnostics::tableCheck_(const EclipseState& eclState)
{
const int numSatRegions = eclState.runspec().tabdims().getNumSatTables();
{
const std::string msg = "Number of saturation regions: " + std::to_string(numSatRegions) + "\n";
OpmLog::info(msg);
}
const auto& tableManager = eclState.getTableManager();
const TableContainer& swofTables = tableManager.getSwofTables();
const TableContainer& slgofTables = tableManager.getSlgofTables();
const TableContainer& sgofTables = tableManager.getSgofTables();
const TableContainer& swfnTables = tableManager.getSwfnTables();
const TableContainer& sgfnTables = tableManager.getSgfnTables();
const TableContainer& sof3Tables = tableManager.getSof3Tables();
const TableContainer& sof2Tables = tableManager.getSof2Tables();
const TableContainer& sgwfnTables = tableManager.getSgwfnTables();
const TableContainer& sgcwmisTables = tableManager.getSgcwmisTables();
const TableContainer& sorwmisTables = tableManager.getSorwmisTables();
const TableContainer& ssfnTables = tableManager.getSsfnTables();
const TableContainer& miscTables = tableManager.getMiscTables();
const TableContainer& msfnTables = tableManager.getMsfnTables();
const TableContainer& gsfTables = tableManager.getGsfTables();
const TableContainer& wsfTables = tableManager.getWsfTables();
for (int satnumIdx = 0; satnumIdx < numSatRegions; ++satnumIdx) {
if (tableManager.hasTables("SWOF")) {
swofTableCheck_(swofTables.getTable<SwofTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SGOF")) {
sgofTableCheck_(sgofTables.getTable<SgofTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SLGOF")) {
slgofTableCheck_(slgofTables.getTable<SlgofTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SWFN")) {
swfnTableCheck_(swfnTables.getTable<SwfnTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SGFN")) {
sgfnTableCheck_(sgfnTables.getTable<SgfnTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SOF3")) {
sof3TableCheck_(sof3Tables.getTable<Sof3Table>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SOF2")) {
sof2TableCheck_(sof2Tables.getTable<Sof2Table>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SGWFN")) {
sgwfnTableCheck_(sgwfnTables.getTable<SgwfnTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SGCWMIS")) {
sgcwmisTableCheck_(sgcwmisTables.getTable<SgcwmisTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SORWMIS")) {
sorwmisTableCheck_(sorwmisTables.getTable<SorwmisTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("SSFN")) {
ssfnTableCheck_(ssfnTables.getTable<SsfnTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("MSFN")) {
msfnTableCheck_(msfnTables.getTable<MsfnTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("GSF")) {
gsfTableCheck_(gsfTables.getTable<GsfTable>(satnumIdx), satnumIdx+1);
}
if (tableManager.hasTables("WSF")) {
wsfTableCheck_(wsfTables.getTable<WsfTable>(satnumIdx), satnumIdx+1);
}
}
if (tableManager.hasTables("MISC")) {
const int numMiscNumIdx = miscTables.size();
const std::string msg = "Number of misc regions: " + std::to_string(numMiscNumIdx) + "\n";
OpmLog::info(msg);
for (int miscNumIdx = 0; miscNumIdx < numMiscNumIdx; ++miscNumIdx) {
miscTableCheck_(miscTables.getTable<MiscTable>(miscNumIdx), miscNumIdx+1);
}
}
}
void RelpermDiagnostics::swofTableCheck_(const SwofTable& swofTables,
const int satnumIdx)
{
const auto& sw = swofTables.getSwColumn();
const auto& krw = swofTables.getKrwColumn();
const auto& krow = swofTables.getKrowColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sw column.
if (sw.front() < 0.0 || sw.back() > 1.0) {
const std::string msg = "In SWOF table SATNUM = "+ regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//TODO check endpoint sw.back() == 1. - Sor.
//Check krw column.
if (krw.front() != 0.0) {
const std::string msg = "In SWOF table SATNUM = " + regionIdx + ", first value of krw should be 0.";
OpmLog::error(msg);
}
if (krw.front() < 0.0 || krw.back() > 1.0) {
const std::string msg = "In SWOF table SATNUM = " + regionIdx + ", krw should be in range [0,1].";
OpmLog::error(msg);
}
///Check krow column.
if (krow.front() > 1.0 || krow.back() < 0.0) {
const std::string msg = "In SWOF table SATNUM = "+ regionIdx + ", krow should be in range [0, 1].";
OpmLog::error(msg);
}
///TODO check if run with gas.
}
void RelpermDiagnostics::sgofTableCheck_(const SgofTable& sgofTables,
const int satnumIdx)
{
const auto& sg = sgofTables.getSgColumn();
const auto& krg = sgofTables.getKrgColumn();
const auto& krog = sgofTables.getKrogColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sw column.
if (sg.front() < 0.0 || sg.back() > 1.0) {
const std::string msg = "In SGOF table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
if (sg.front() != 0.0) {
const std::string msg = "In SGOF table SATNUM = " + regionIdx + ", first value of sg should be 0.";
OpmLog::error(msg);
}
//TODO check endpoint sw.back() == 1. - Sor.
//Check krw column.
if (krg.front() != 0.0) {
const std::string msg = "In SGOF table SATNUM = " + regionIdx + ", first value of krg should be 0.";
OpmLog::error(msg);
}
if (krg.front() < 0.0 || krg.back() > 1.0) {
const std::string msg = "In SGOF table SATNUM = " + regionIdx + ", krg should be in range [0,1].";
OpmLog::error(msg);
}
//Check krow column.
if (krog.front() > 1.0 || krog.back() < 0.0) {
const std::string msg = "In SGOF table SATNUM = " + regionIdx + ", krog should be in range [0, 1].";
OpmLog::error(msg);
}
//TODO check if run with water.
}
void RelpermDiagnostics::slgofTableCheck_(const SlgofTable& slgofTables,
const int satnumIdx)
{
const auto& sl = slgofTables.getSlColumn();
const auto& krg = slgofTables.getKrgColumn();
const auto& krog = slgofTables.getKrogColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sl column.
//TODO first value means sl = swco + sor
if (sl.front() < 0.0 || sl.back() > 1.0) {
const std::string msg = "In SLGOF table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
if (sl.back() != 1.0) {
const std::string msg = "In SLGOF table SATNUM = " + regionIdx + ", last value of sl should be 1.";
OpmLog::error(msg);
}
if (krg.front() > 1.0 || krg.back() < 0) {
const std::string msg = "In SLGOF table SATNUM = " + regionIdx + ", krg should be in range [0, 1].";
OpmLog::error(msg);
}
if (krg.back() != 0.0) {
const std::string msg = "In SLGOF table SATNUM = " + regionIdx + ", last value of krg hould be 0.";
OpmLog::error(msg);
}
if (krog.front() < 0.0 || krog.back() > 1.0) {
const std::string msg = "In SLGOF table SATNUM = " + regionIdx + ", krog should be in range [0, 1].";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::swfnTableCheck_(const SwfnTable& swfnTables,
const int satnumIdx)
{
const auto& sw = swfnTables.getSwColumn();
const auto& krw = swfnTables.getKrwColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sw column.
if (sw.front() < 0.0 || sw.back() > 1.0) {
const std::string msg = "In SWFN table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check krw column.
if (krw.front() < 0.0 || krw.back() > 1.0) {
const std::string msg = "In SWFN table SATNUM = " + regionIdx + ", krw should be in range [0,1].";
OpmLog::error(msg);
}
if (krw.front() != 0.0) {
const std::string msg = "In SWFN table SATNUM = " + regionIdx + ", first value of krw should be 0.";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::wsfTableCheck_(const WsfTable& wsfTables,
const int satnumIdx)
{
const auto& sw = wsfTables.getSwColumn();
const auto& krw = wsfTables.getKrwColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sw column.
if (sw.front() < 0.0 || sw.back() > 1.0) {
const std::string msg = "In WSF table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check krw column.
if (krw.front() < 0.0 || krw.back() > 1.0) {
const std::string msg = "In WSF table SATNUM = " + regionIdx + ", krw should be in range [0,1].";
OpmLog::error(msg);
}
if (krw.front() != 0.0) {
const std::string msg = "In WSF table SATNUM = " + regionIdx + ", first value of krw should be 0.";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::sgfnTableCheck_(const SgfnTable& sgfnTables,
const int satnumIdx)
{
const auto& sg = sgfnTables.getSgColumn();
const auto& krg = sgfnTables.getKrgColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sg column.
if (sg.front() < 0.0 || sg.back() > 1.0) {
const std::string msg = "In SGFN table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check krg column.
if (krg.front() < 0.0 || krg.back() > 1.0) {
const std::string msg = "In SGFN table SATNUM = " + regionIdx + ", krg should be in range [0,1].";
OpmLog::error(msg);
}
if (krg.front() != 0.0) {
const std::string msg = "In SGFN table SATNUM = " + regionIdx + ", first value of krg should be 0.";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::gsfTableCheck_(const GsfTable& gsfTables,
const int satnumIdx)
{
const auto& sg = gsfTables.getSgColumn();
const auto& krg = gsfTables.getKrgColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sg column.
if (sg.front() < 0.0 || sg.back() > 1.0) {
const std::string msg = "In GSF table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check krg column.
if (krg.front() < 0.0 || krg.back() > 1.0) {
const std::string msg = "In GSF table SATNUM = " + regionIdx + ", krg should be in range [0,1].";
OpmLog::error(msg);
}
if (krg.front() != 0.0) {
const std::string msg = "In GSF table SATNUM = " + regionIdx + ", first value of krg should be 0.";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::sof3TableCheck_(const Sof3Table& sof3Tables,
const int satnumIdx)
{
const auto& so = sof3Tables.getSoColumn();
const auto& krow = sof3Tables.getKrowColumn();
const auto& krog = sof3Tables.getKrogColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check so column.
//TODO: The max so = 1 - Swco
if (so.front() < 0.0 || so.back() > 1.0) {
const std::string msg = "In SOF3 table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check krow column.
if (krow.front() < 0.0 || krow.back() > 1.0) {
const std::string msg = "In SOF3 table SATNUM = " + regionIdx + ", krow should be in range [0,1].";
OpmLog::error(msg);
}
if (krow.front() != 0.0) {
const std::string msg = "In SOF3 table SATNUM = " + regionIdx + ", first value of krow should be 0.";
OpmLog::error(msg);
}
//Check krog column.
if (krog.front() < 0.0 || krog.back() > 1.0) {
const std::string msg = "In SOF3 table SATNUM = " + regionIdx + ", krog should be in range [0,1].";
OpmLog::error(msg);
}
if (krog.front() != 0.0) {
const std::string msg = "In SOF3 table SATNUM = " + regionIdx + ", first value of krog should be 0.";
OpmLog::error(msg);
}
if (krog.back() != krow.back()) {
const std::string msg = "In SOF3 table SATNUM = " + regionIdx + ", max value of krog and krow should be the same.";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::sof2TableCheck_(const Sof2Table& sof2Tables,
const int satnumIdx)
{
const auto& so = sof2Tables.getSoColumn();
const auto& kro = sof2Tables.getKroColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check so column.
//TODO: The max so = 1 - Swco
if (so.front() < 0.0 || so.back() > 1.0) {
const std::string msg = "In SOF2 table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check krow column.
if (kro.front() < 0.0 || kro.back() > 1.0) {
const std::string msg = "In SOF2 table SATNUM = " + regionIdx + ", krow should be in range [0,1].";
OpmLog::error(msg);
}
if (kro.front() != 0.0) {
const std::string msg = "In SOF2 table SATNUM = " + regionIdx + ", first value of krow should be 0.";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::sgwfnTableCheck_(const SgwfnTable& sgwfnTables,
const int satnumIdx)
{
const auto& sg = sgwfnTables.getSgColumn();
const auto& krg = sgwfnTables.getKrgColumn();
const auto& krgw = sgwfnTables.getKrgwColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sg column.
if (sg.front() < 0.0 || sg.back() > 1.0) {
const std::string msg = "In SGWFN table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check krg column.
if (krg.front() < 0.0 || krg.back() > 1.0) {
const std::string msg = "In SGWFN table SATNUM = " + regionIdx + ", krg should be in range [0,1].";
OpmLog::error(msg);
}
if (krg.front() != 0.0) {
const std::string msg = "In SGWFN table SATNUM = " + regionIdx + ", first value of krg should be 0.";
OpmLog::error(msg);
}
//Check krgw column.
//TODO check saturation sw = 1. - sg
if (krgw.front() > 1.0 || krgw.back() < 0.0) {
const std::string msg = "In SGWFN table SATNUM = " + regionIdx + ", krgw should be in range [0,1].";
OpmLog::error(msg);
}
if (krgw.back() != 0.0) {
const std::string msg = "In SGWFN table SATNUM = " + regionIdx + ", last value of krgw should be 0.";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::sgcwmisTableCheck_(const SgcwmisTable& sgcwmisTables,
const int satnumIdx)
{
const auto& sw = sgcwmisTables.getWaterSaturationColumn();
const auto& sgc = sgcwmisTables.getMiscibleResidualGasColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sw column.
if (sw.front() < 0.0 || sw.back() > 1.0) {
const std::string msg = "In SGCWMIS table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check critical gas column.
if (sgc.front() < 0.0 || sgc.back() > 1.0) {
const std::string msg = "In SGCWMIS table SATNUM = " + regionIdx + ", critical gas saturation should be in range [0,1].";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::sorwmisTableCheck_(const SorwmisTable& sorwmisTables,
const int satnumIdx)
{
const auto& sw = sorwmisTables.getWaterSaturationColumn();
const auto& sor = sorwmisTables.getMiscibleResidualOilColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check sw column.
if (sw.front() < 0.0 || sw.back() > 1.0) {
const std::string msg = "In SORWMIS table SATNUM = " + regionIdx + ", saturation should be in range [0,1].";
OpmLog::error(msg);
}
//Check critical oil column.
if (sor.front() < 0.0 || sor.back() > 1.0) {
const std::string msg = "In SORWMIS table SATNUM = " + regionIdx + ", critical oil saturation should be in range [0,1].";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::ssfnTableCheck_(const SsfnTable& ssfnTables,
const int satnumIdx)
{
const auto& frac = ssfnTables.getSolventFractionColumn();
const auto& krgm = ssfnTables.getGasRelPermMultiplierColumn();
const auto& krsm = ssfnTables.getSolventRelPermMultiplierColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check phase fraction column.
if (frac.front() < 0.0 || frac.back() > 1.0) {
const std::string msg = "In SSFN table SATNUM = " + regionIdx + ", phase fraction should be in range [0,1].";
OpmLog::error(msg);
}
//Check gas relperm multiplier column.
if (krgm.front() < 0.0 || krgm.back() > 1.0) {
const std::string msg = "In SSFN table SATNUM = " + regionIdx + ", gas relative permeability multiplier should be in range [0,1].";
OpmLog::error(msg);
}
//Check solvent relperm multiplier column.
if (krsm.front() < 0.0 || krsm.back() > 1.0) {
const std::string msg = "In SSFN table SATNUM = " + regionIdx + ", solvent relative permeability multiplier should be in range [0,1].";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::miscTableCheck_(const MiscTable& miscTables,
const int miscnumIdx)
{
const auto& frac = miscTables.getSolventFractionColumn();
const auto& misc = miscTables.getMiscibilityColumn();
const std::string regionIdx = std::to_string(miscnumIdx);
//Check phase fraction column.
if (frac.front() < 0.0 || frac.back() > 1.0) {
const std::string msg = "In MISC table MISCNUM = " + regionIdx + ", phase fraction should be in range [0,1].";
OpmLog::error(msg);
}
//Check miscibility column.
if (misc.front() < 0.0 || misc.back() > 1.0) {
const std::string msg = "In MISC table MISCNUM = " + regionIdx + ", miscibility should be in range [0,1].";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::msfnTableCheck_(const MsfnTable& msfnTables,
const int satnumIdx)
{
const auto& frac = msfnTables.getGasPhaseFractionColumn();
const auto& krgsm = msfnTables.getGasSolventRelpermMultiplierColumn();
const auto& krom = msfnTables.getOilRelpermMultiplierColumn();
const std::string regionIdx = std::to_string(satnumIdx);
//Check phase fraction column.
if (frac.front() < 0.0 || frac.back() > 1.0) {
const std::string msg = "In MSFN table SATNUM = " + regionIdx + ", total gas fraction should be in range [0,1].";
OpmLog::error(msg);
}
//Check gas_solvent relperm multiplier column.
if (krgsm.front() < 0.0 || krgsm.back() > 1.0) {
const std::string msg = "In MSFN table SATNUM = " + regionIdx + ", gas+solvent relative permeability multiplier should be in range [0,1].";
OpmLog::error(msg);
}
//Check oil relperm multiplier column.
if (krom.front() > 1.0 || krom.back() < 0.0) {
const std::string msg = "In MSFN table SATNUM = " + regionIdx + ", oil relative permeability multiplier should be in range [0,1].";
OpmLog::error(msg);
}
}
void RelpermDiagnostics::unscaledEndPointsCheck_(const EclipseState& eclState)
{
// get the number of saturation regions and the number of cells in the deck
const auto& runspec = eclState.runspec();
const int numSatRegions = runspec.tabdims().getNumSatTables();
if (numSatRegions < 1) {
return;
}
unscaledEpsInfo_.resize(numSatRegions);
const auto& tables = eclState.getTableManager();
const auto& phases = runspec.phases();
const auto tolcrit = runspec.saturationFunctionControls()
.minimumRelpermMobilityThreshold();
const auto rtep =
satfunc::getRawTableEndpoints(tables, phases, tolcrit);
const auto rfunc =
satfunc::getRawFunctionValues(tables, phases, rtep);
const TableContainer& swofTables = tables.getSwofTables();
const SwofletTable& swofletTables = tables.getSwofletTable();
const TableContainer& sgofTables = tables.getSgofTables();
const SgofletTable& sgofletTables = tables.getSgofletTable();
const TableContainer& slgofTables = tables.getSlgofTables();
const TableContainer& sof3Tables = tables.getSof3Tables();
// std::cout << "***************\nEnd-Points In all the Tables\n";
for (int satnumIdx = 0; satnumIdx < numSatRegions; ++satnumIdx) {
this->unscaledEpsInfo_[satnumIdx]
.extractUnscaled(rtep, rfunc, satnumIdx);
const std::string regionIdx = std::to_string(satnumIdx + 1);
///Consistency check.
if (unscaledEpsInfo_[satnumIdx].Sgu > (1. - unscaledEpsInfo_[satnumIdx].Swl)) {
const std::string msg = "In saturation table SATNUM = " + regionIdx + ", Sgmax should not exceed 1-Swco.";
OpmLog::warning(msg);
}
if (unscaledEpsInfo_[satnumIdx].Sgl > (1. - unscaledEpsInfo_[satnumIdx].Swu)) {
const std::string msg = "In saturation table SATNUM = " + regionIdx + ", Sgco should not exceed 1-Swmax.";
OpmLog::warning(msg);
}
//Krow(Sou) == Krog(Sou) for three-phase
// means Krow(Swco) == Krog(Sgco)
double krow_value = 1e20;
double krog_value = 1e-20;
if (fluidSystem_ == FluidSystem::BlackOil) {
if (satFamily_ == SaturationFunctionFamily::FamilyI) {
if (!sgofTables.empty()) {
const auto& table = sgofTables.getTable<SgofTable>(satnumIdx);
krog_value = table.evaluate( "KROG" , unscaledEpsInfo_[satnumIdx].Sgl );
} else if (!sgofletTables.empty()) {
krog_value = sgofletTables[satnumIdx].krt2_relperm;
} else {
assert(!slgofTables.empty());
const auto& table = slgofTables.getTable<SlgofTable>(satnumIdx);
krog_value = table.evaluate( "KROG" , unscaledEpsInfo_[satnumIdx].Sgl );
}
if (!swofTables.empty()) {
const auto& table = swofTables.getTable<SwofTable>(satnumIdx);
krow_value = table.evaluate("KROW" , unscaledEpsInfo_[satnumIdx].Swl);
} else {
assert(!swofletTables.empty());
krow_value = swofletTables[satnumIdx].krt2_relperm;
}
}
if (satFamily_ == SaturationFunctionFamily::FamilyII) {
assert(!sof3Tables.empty());
const auto& table = sof3Tables.getTable<Sof3Table>(satnumIdx);
const double Sou = 1.- unscaledEpsInfo_[satnumIdx].Swl - unscaledEpsInfo_[satnumIdx].Sgl;
krow_value = table.evaluate("KROW" , Sou);
krog_value = table.evaluate("KROG" , Sou);
}
if (krow_value != krog_value) {
const std::string msg = "In saturation table SATNUM = " + regionIdx + ", Krow(Somax) should be equal to Krog(Somax).";
OpmLog::warning(msg);
}
}
//Krw(Sw=0)=Krg(Sg=0)=Krow(So=0)=Krog(So=0)=0.
//Mobile fluid requirements
if (((unscaledEpsInfo_[satnumIdx].Sowcr + unscaledEpsInfo_[satnumIdx].Swcr)-1) >= 0) {
const std::string msg = "In saturation table SATNUM = " + regionIdx + ", Sowcr + Swcr should be less than 1.";
OpmLog::warning(msg);
}
if (((unscaledEpsInfo_[satnumIdx].Sogcr + unscaledEpsInfo_[satnumIdx].Sgcr + unscaledEpsInfo_[satnumIdx].Swl) - 1 ) > 0) {
const std::string msg = "In saturation table SATNUM = " + regionIdx + ", Sogcr + Sgcr + Swco should be less than 1.";
OpmLog::warning(msg);
}
}
}
template <class CartesianIndexMapper>
void RelpermDiagnostics::diagnosis(const EclipseState& eclState,
const CartesianIndexMapper& cartesianIndexMapper)
{
OpmLog::info("\n===============Saturation Functions Diagnostics===============\n");
bool doDiagnostics = phaseCheck_(eclState);
if (!doDiagnostics) // no diagnostics needed for single phase problems
return;
satFamilyCheck_(eclState);
tableCheck_(eclState);
unscaledEndPointsCheck_(eclState);
scaledEndPointsCheck_(eclState, cartesianIndexMapper);
}
template <class CartesianIndexMapper>
void RelpermDiagnostics::scaledEndPointsCheck_(const EclipseState& eclState,
const CartesianIndexMapper& cartesianIndexMapper)
{
// All end points are subject to round-off errors, checks should account for it
const float tolerance = 1e-6;
const int nc = cartesianIndexMapper.compressedSize();
const bool threepoint = eclState.runspec().endpointScaling().threepoint();
scaledEpsInfo_.resize(nc);
EclEpsGridProperties epsGridProperties(eclState, false);
const std::string tag = "Scaled endpoints";
for (int c = 0; c < nc; ++c) {
const std::string satnumIdx = std::to_string(epsGridProperties.satRegion(c));
std::string cellIdx;
{
std::array<int, 3> ijk;
cartesianIndexMapper.cartesianCoordinate(c, ijk);
cellIdx = "(" + std::to_string(ijk[0]) + ", " +
std::to_string(ijk[1]) + ", " +
std::to_string(ijk[2]) + ")";
}
scaledEpsInfo_[c].extractScaled(eclState, epsGridProperties, c);
// SGU <= 1.0 - SWL
if (scaledEpsInfo_[c].Sgu > (1.0 - scaledEpsInfo_[c].Swl + tolerance)) {
const std::string msg = "For scaled endpoints input, cell" + cellIdx + " SATNUM = " + satnumIdx + ", SGU exceed 1.0 - SWL";
OpmLog::warning(tag, msg);
}
// SGL <= 1.0 - SWU
if (scaledEpsInfo_[c].Sgl > (1.0 - scaledEpsInfo_[c].Swu + tolerance)) {
const std::string msg = "For scaled endpoints input, cell" + cellIdx + " SATNUM = " + satnumIdx + ", SGL exceed 1.0 - SWU";
OpmLog::warning(tag, msg);
}
if (threepoint && fluidSystem_ == FluidSystem::BlackOil) {
// Mobilility check.
if ((scaledEpsInfo_[c].Sowcr + scaledEpsInfo_[c].Swcr) >= (1.0 + tolerance)) {
const std::string msg = "For scaled endpoints input, cell" + cellIdx + " SATNUM = " + satnumIdx + ", SOWCR + SWCR exceed 1.0";
OpmLog::warning(tag, msg);
}
if ((scaledEpsInfo_[c].Sogcr + scaledEpsInfo_[c].Sgcr + scaledEpsInfo_[c].Swl) >= (1.0 + tolerance)) {
const std::string msg = "For scaled endpoints input, cell" + cellIdx + " SATNUM = " + satnumIdx + ", SOGCR + SGCR + SWL exceed 1.0";
OpmLog::warning(tag, msg);
}
}
}
}
#define INSTANCE_DIAGNOSIS(...) \
template void RelpermDiagnostics::diagnosis<Dune::CartesianIndexMapper<__VA_ARGS__>>(const EclipseState&, const Dune::CartesianIndexMapper<__VA_ARGS__>&); \
template void RelpermDiagnostics::scaledEndPointsCheck_<Dune::CartesianIndexMapper<__VA_ARGS__>>(const EclipseState&, const Dune::CartesianIndexMapper<__VA_ARGS__>&);
INSTANCE_DIAGNOSIS(Dune::CpGrid)
INSTANCE_DIAGNOSIS(Dune::PolyhedralGrid<3,3>)
#if HAVE_DUNE_ALUGRID
#if HAVE_MPI
INSTANCE_DIAGNOSIS(Dune::ALUGrid<3, 3, Dune::cube, Dune::nonconforming, Dune::ALUGridMPIComm>)
#else
INSTANCE_DIAGNOSIS(Dune::ALUGrid<3, 3, Dune::cube, Dune::nonconforming, Dune::ALUGridNoComm>)
#endif //HAVE_MPI
#endif //HAVE_DUNE_ALUGRID
} //namespace Opm