48 static constexpr int numEq = BlackoilIndices::numEq;
49 using Eval = DenseAd::Evaluation<Scalar, numEq>;
52 const Simulator& simulator,
53 const SingleAquiferFlux& aquifer)
55 , connections_ (connections)
56 , aquifer_data_ (aquifer)
57 , connection_flux_ (connections_.size(), Eval{0})
59 this->total_face_area_ = this->initializeConnections();
65 result.cumulative_flux_ = 1.0;
72 void computeFaceAreaFraction(
const std::vector<Scalar>& total_face_area)
override
74 assert (total_face_area.size() >=
static_cast<typename std::vector<Scalar>::size_type
>(this->aquiferID()));
76 this->area_fraction_ = this->totalFaceArea()
77 / total_face_area[this->aquiferID() - 1];
80 Scalar totalFaceArea()
const override
82 return this->total_face_area_;
85 void updateAquifer(
const SingleAquiferFlux& aquifer)
87 aquifer_data_ = aquifer;
90 void initFromRestart(
const data::Aquifers& aquiferSoln)
override
92 auto xaqPos = aquiferSoln.find(this->aquiferID());
93 if (xaqPos == aquiferSoln.end()) {
97 this->cumulative_flux_ = this->area_fraction_ * xaqPos->second.volume;
100 void initialSolutionApplied()
override
103 void beginTimeStep()
override
106 void endTimeStep()
override
108 this->flux_rate_ = this->totalFluxRate();
109 this->cumulative_flux_ +=
110 this->flux_rate_ * this->simulator_.timeStepSize();
113 data::AquiferData aquiferData()
const override
115 data::AquiferData data;
117 data.aquiferID = this->aquifer_data_.id;
121 data.fluxRate = this->totalFluxRate();
123 data.volume = this->cumulative_flux_;
126 data.initPressure = 0.0;
131 void addToSource(RateVector& rates,
132 const unsigned cellIdx,
133 [[maybe_unused]]
const unsigned timeIdx)
override
135 const int idx = this->cellToConnectionIdx_[cellIdx];
140 const auto& model = this->simulator_.model();
142 const auto fw = this->aquifer_data_.flux;
144 this->connection_flux_[idx] = fw * this->connections_[idx].effective_facearea;
146 rates[BlackoilIndices::conti0EqIdx + compIdx_()]
147 += this->connection_flux_[idx] / model.dofTotalVolume(cellIdx);
150 template<
class Serializer>
151 void serializeOp(Serializer& serializer)
153 serializer(cumulative_flux_);
158 return this->cumulative_flux_ == rhs.cumulative_flux_;
162 const std::vector<Aquancon::AquancCell>& connections_;
164 SingleAquiferFlux aquifer_data_;
165 std::vector<Eval> connection_flux_{};
166 std::vector<int> cellToConnectionIdx_{};
168 Scalar cumulative_flux_{};
169 Scalar total_face_area_{0.0};
170 Scalar area_fraction_{1.0};
172 Scalar initializeConnections()
174 auto connected_face_area = 0.0;
176 this->cellToConnectionIdx_
177 .resize(this->simulator_.gridView().size(0), -1);
179 for (std::size_t idx = 0; idx < this->connections_.size(); ++idx) {
180 const auto global_index = this->connections_[idx].global_index;
181 const int cell_index = this->simulator_.vanguard()
182 .compressedIndexForInterior(global_index);
184 if (cell_index < 0) {
188 this->cellToConnectionIdx_[cell_index] = idx;
190 connected_face_area += this->connections_[idx].effective_facearea;
197 return connected_face_area;
200 Scalar computeFaceAreaFraction(
const Scalar connected_face_area)
const
202 const auto tot_face_area = this->simulator_.vanguard()
203 .grid().comm().sum(connected_face_area);
205 return (tot_face_area > 0.0)
206 ? connected_face_area / tot_face_area
213 if (this->co2store_or_h2store_())
214 return FluidSystem::oilCompIdx;
216 return FluidSystem::waterCompIdx;
219 Scalar totalFluxRate()
const
221 return std::accumulate(this->connection_flux_.begin(),
222 this->connection_flux_.end(), 0.0,
223 [](
const Scalar rate,
const auto& q)
225 return rate + getValue(q);