opm-simulators/opm/simulators/aquifers/BlackoilAquiferModel_impl.hpp

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/*
Copyright 2017 TNO - Heat Transfer & Fluid Dynamics, Modelling & Optimization of the Subsurface
Copyright 2017 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/>.
*/
#include <opm/grid/utility/cartesianToCompressed.hpp>
#include "BlackoilAquiferModel.hpp"
namespace Opm
{
template <typename TypeTag>
BlackoilAquiferModel<TypeTag>::BlackoilAquiferModel(Simulator& simulator)
: simulator_(simulator)
{
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// Grid needs to support Facetag
using Grid = std::remove_const_t<std::remove_reference_t<decltype(simulator.vanguard().grid())>>;
static_assert(SupportsFaceTag<Grid>::value, "Grid has to support assumptions about face tag.");
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init();
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::initialSolutionApplied()
{
if (aquiferCarterTracyActive()) {
for (auto& aquifer : aquifers_CarterTracy) {
aquifer.initialSolutionApplied();
}
}
if (aquiferFetkovichActive()) {
for (auto& aquifer : aquifers_Fetkovich) {
aquifer.initialSolutionApplied();
}
}
if (this->aquiferNumericalActive()) {
for (auto& aquifer : this->aquifers_numerical) {
aquifer.initialSolutionApplied();
}
}
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::initFromRestart(const std::vector<data::AquiferData>& aquiferSoln)
{
if (aquiferCarterTracyActive()) {
for (auto& aquifer : aquifers_CarterTracy) {
aquifer.initFromRestart(aquiferSoln);
}
}
if (aquiferFetkovichActive()) {
for (auto& aquifer : aquifers_Fetkovich) {
aquifer.initFromRestart(aquiferSoln);
}
}
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::beginEpisode()
{
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::beginIteration()
{
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::beginTimeStep()
{
if (aquiferCarterTracyActive()) {
for (auto& aquifer : aquifers_CarterTracy) {
aquifer.beginTimeStep();
}
}
if (aquiferFetkovichActive()) {
for (auto& aquifer : aquifers_Fetkovich) {
aquifer.beginTimeStep();
}
}
}
template <typename TypeTag>
template <class Context>
void
BlackoilAquiferModel<TypeTag>::addToSource(RateVector& rates,
const Context& context,
unsigned spaceIdx,
unsigned timeIdx) const
{
if (aquiferCarterTracyActive()) {
for (auto& aquifer : aquifers_CarterTracy) {
aquifer.addToSource(rates, context, spaceIdx, timeIdx);
}
}
if (aquiferFetkovichActive()) {
for (auto& aquifer : aquifers_Fetkovich) {
aquifer.addToSource(rates, context, spaceIdx, timeIdx);
}
}
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::endIteration()
{
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::endTimeStep()
{
if (aquiferCarterTracyActive()) {
for (auto& aquifer : aquifers_CarterTracy) {
aquifer.endTimeStep();
}
}
if (aquiferFetkovichActive()) {
for (auto& aquifer : aquifers_Fetkovich) {
aquifer.endTimeStep();
}
}
if (aquiferNumericalActive()) {
for (auto& aquifer : this->aquifers_numerical) {
aquifer.endTimeStep();
}
}
}
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::endEpisode()
{
}
template <typename TypeTag>
template <class Restarter>
void
BlackoilAquiferModel<TypeTag>::serialize(Restarter& /* res */)
{
// TODO (?)
throw std::logic_error("BlackoilAquiferModel::serialize() is not yet implemented");
}
template <typename TypeTag>
template <class Restarter>
void
BlackoilAquiferModel<TypeTag>::deserialize(Restarter& /* res */)
{
// TODO (?)
throw std::logic_error("BlackoilAquiferModel::deserialize() is not yet implemented");
}
// Initialize the aquifers in the deck
template <typename TypeTag>
void
BlackoilAquiferModel<TypeTag>::init()
{
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const auto& aquifer = this->simulator_.vanguard().eclState().aquifer();
if (!aquifer.active()) {
return;
}
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const auto& connections = aquifer.connections();
for (const auto& aq : aquifer.ct()) {
aquifers_CarterTracy.emplace_back(connections[aq.aquiferID],
this->simulator_, aq);
}
for (const auto& aq : aquifer.fetp()) {
aquifers_Fetkovich.emplace_back(connections[aq.aquiferID],
this->simulator_, aq);
}
if (aquifer.hasNumericalAquifer()) {
const auto aquifers = aquifer.numericalAquifers().aquifers();
const auto& ugrid = simulator_.vanguard().grid();
const int number_of_cells = simulator_.gridView().size(0);
const int* global_cell = Opm::UgGridHelpers::globalCell(ugrid);
const std::unordered_map<int, int> cartesian_to_compressed = cartesianToCompressed(number_of_cells,
global_cell);
// for (const auto& elem : ers().aquifers()) {
for (const auto& [id, aqu] : aquifers) {
this->aquifers_numerical.emplace_back(aqu,
cartesian_to_compressed, this->simulator_, global_cell);
}
}
}
template <typename TypeTag>
bool
BlackoilAquiferModel<TypeTag>::aquiferActive() const
{
return (aquiferCarterTracyActive() || aquiferFetkovichActive());
}
template <typename TypeTag>
bool
BlackoilAquiferModel<TypeTag>::aquiferCarterTracyActive() const
{
return !aquifers_CarterTracy.empty();
}
template <typename TypeTag>
bool
BlackoilAquiferModel<TypeTag>::aquiferFetkovichActive() const
{
return !aquifers_Fetkovich.empty();
}
template<typename TypeTag>
bool
BlackoilAquiferModel<TypeTag>::aquiferNumericalActive() const
{
return !(this->aquifers_numerical.empty());
}
template<typename TypeTag>
Opm::data::Aquifers BlackoilAquiferModel<TypeTag>::aquiferData() const {
Opm::data::Aquifers data;
if (this->aquiferCarterTracyActive()) {
for (const auto& aqu : aquifers_CarterTracy) {
Opm::data::AquiferData aqu_data = aqu.aquiferData();
data[aqu_data.aquiferID] = aqu_data;
}
}
if (this->aquiferFetkovichActive()) {
for (const auto& aqu : aquifers_Fetkovich) {
Opm::data::AquiferData aqu_data = aqu.aquiferData();
data[aqu_data.aquiferID] = aqu_data;
}
}
if (this->aquiferNumericalActive()) {
for (const auto& aqu : this->aquifers_numerical) {
Opm::data::AquiferData aqu_data = aqu.aquiferData();
data[aqu_data.aquiferID] = aqu_data;
}
}
return data;
}
} // namespace Opm