/* Copyright 2012 SINTEF ICT, Applied Mathematics. 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 . */ #include "config.h" #include #include #include #include #include #include namespace Opm { RockCompressibility::RockCompressibility(const parameter::ParameterGroup& param) : pref_(0.0), rock_comp_(0.0) { pref_ = param.getDefault("rock_compressibility_pref", 100.0)*unit::barsa; rock_comp_ = param.getDefault("rock_compressibility", 0.0)/unit::barsa; } RockCompressibility::RockCompressibility(Opm::DeckConstPtr deck, Opm::EclipseStateConstPtr eclipseState) : pref_(0.0), rock_comp_(0.0) { const auto tables = eclipseState->getTableManager(); const auto& rocktabTables = tables->getRocktabTables(); if (rocktabTables.size() > 0) { const auto& rocktabTable = rocktabTables.getTable(0); if (rocktabTables.size() != 1) OPM_THROW(std::runtime_error, "Can only handle a single region in ROCKTAB."); p_ = rocktabTable.getColumn("PO").vectorCopy( ); poromult_ = rocktabTable.getColumn("PV_MULT").vectorCopy(); if (rocktabTable.hasColumn("PV_MULT_TRAN")) { transmult_ = rocktabTable.getColumn("PV_MULT_TRAN").vectorCopy(); } else { transmult_ = rocktabTable.getColumn("PV_MULT_TRANX").vectorCopy(); } } else if (deck->hasKeyword("ROCK")) { Opm::DeckKeywordConstPtr rockKeyword = deck->getKeyword("ROCK"); if (rockKeyword->size() != 1) { // here it would be better not to use std::cout directly but to add the // warning to some "warning list"... std::cout << "Can only handle a single region in ROCK ("<size()<<" regions specified)." << " Ignoring all except for the first.\n"; } pref_ = rockKeyword->getRecord(0)->getItem("PREF")->getSIDouble(0); rock_comp_ = rockKeyword->getRecord(0)->getItem("COMPRESSIBILITY")->getSIDouble(0); } else { std::cout << "**** warning: no rock compressibility data found in deck (ROCK or ROCKTAB)." << std::endl; } } bool RockCompressibility::isActive() const { return !p_.empty() || (rock_comp_ != 0.0); } double RockCompressibility::poroMult(double pressure) const { if (p_.empty()) { // Approximating with a quadratic curve. const double cpnorm = rock_comp_*(pressure - pref_); return (1.0 + cpnorm + 0.5*cpnorm*cpnorm); } else { return Opm::linearInterpolation(p_, poromult_, pressure); } } double RockCompressibility::poroMultDeriv(double pressure) const { if (p_.empty()) { // Approximating poro multiplier with a quadratic curve, // we must use its derivative. return rock_comp_ + 2 * rock_comp_ * rock_comp_ * (pressure - pref_); } else { return Opm::linearInterpolationDerivative(p_, poromult_, pressure); } } double RockCompressibility::transMult(double pressure) const { if (p_.empty()) { return 1.0; } else { return Opm::linearInterpolation(p_, transmult_, pressure); } } double RockCompressibility::transMultDeriv(double pressure) const { if (p_.empty()) { return 0.0; } else { return Opm::linearInterpolationDerivative(p_, transmult_, pressure); } } double RockCompressibility::rockComp(double pressure) const { if (p_.empty()) { return rock_comp_; } else { //const double poromult = Opm::linearInterpolation(p_, poromult_, pressure); //const double dporomultdp = Opm::linearInterpolationDerivative(p_, poromult_, pressure); const double poromult = Opm::linearInterpolation(p_, poromult_, pressure); const double dporomultdp = Opm::linearInterpolationDerivative(p_, poromult_, pressure); return dporomultdp/poromult; } } } // namespace Opm