21#ifndef OPM_AQUIFETP_HEADER_INCLUDED
22#define OPM_AQUIFETP_HEADER_INCLUDED
24#include <opm/simulators/aquifers/AquiferAnalytical.hpp>
26#include <opm/input/eclipse/EclipseState/Aquifer/Aquifetp.hpp>
28#include <opm/output/data/Aquifer.hpp>
37template <
typename TypeTag>
44 using typename Base::BlackoilIndices;
45 using typename Base::ElementContext;
46 using typename Base::Eval;
47 using typename Base::FluidState;
48 using typename Base::FluidSystem;
49 using typename Base::IntensiveQuantities;
50 using typename Base::RateVector;
51 using typename Base::Scalar;
52 using typename Base::Simulator;
53 using typename Base::ElementMapper;
56 const Simulator& ebosSimulator,
57 const Aquifetp::AQUFETP_data& aqufetp_data)
58 :
Base(aqufetp_data.aquiferID, connections, ebosSimulator)
59 , aqufetp_data_(aqufetp_data)
63 static AquiferFetkovich serializationTestObject(
const Simulator& ebosSimulator)
67 result.pressure_previous_ = {1.0, 2.0, 3.0};
68 result.pressure_current_ = {4.0, 5.0};
69 result.Qai_ = {{6.0}};
72 result.aquifer_pressure_ = 9.0;
77 void endTimeStep()
override
79 for (
const auto& q : this->Qai_) {
80 this->W_flux_ += q * this->ebos_simulator_.timeStepSize();
82 aquifer_pressure_ = aquiferPressure();
85 data::AquiferData aquiferData()
const override
88 auto data = data::AquiferData{};
90 data.aquiferID = this->aquiferID();
91 data.pressure = this->aquifer_pressure_;
92 data.fluxRate = std::accumulate(this->Qai_.begin(), this->Qai_.end(), 0.0,
93 [](
const double flux,
const auto& q) ->
double
95 return flux + q.value();
97 data.volume = this->W_flux_.value();
98 data.initPressure = this->pa0_;
100 auto* aquFet = data.typeData.template create<data::AquiferType::Fetkovich>();
101 aquFet->initVolume = this->aqufetp_data_.initial_watvolume;
102 aquFet->prodIndex = this->aqufetp_data_.prod_index;
103 aquFet->timeConstant = this->aqufetp_data_.timeConstant();
108 template<
class Serializer>
109 void serializeOp(Serializer& serializer)
111 serializer(
static_cast<Base&
>(*
this));
112 serializer(aquifer_pressure_);
117 return static_cast<const Base&
>(*this) == rhs &&
118 this->aquifer_pressure_ == rhs.aquifer_pressure_;
123 Aquifetp::AQUFETP_data aqufetp_data_;
124 Scalar aquifer_pressure_;
126 void assignRestartData(
const data::AquiferData& xaq)
override
128 if (! xaq.typeData.is<data::AquiferType::Fetkovich>()) {
129 throw std::invalid_argument {
130 "Analytic aquifer data for unexpected aquifer "
131 "type passed to Fetkovich aquifer"
135 this->aquifer_pressure_ = xaq.pressure;
136 this->rhow_ = this->aqufetp_data_.waterDensity();
139 inline Eval dpai(
int idx)
142 this->gravity_() * (this->cell_depth_[idx] - this->aquiferDepth());
144 return this->aquifer_pressure_ + this->rhow_*gdz
145 - this->pressure_current_.at(idx);
149 inline Scalar aquiferPressure()
151 Scalar Flux = this->W_flux_.value();
153 const auto& comm = this->ebos_simulator_.vanguard().grid().comm();
157 this->aqufetp_data_.total_compr * this->aqufetp_data_.initial_watvolume;
159 return this->pa0_ - (Flux / denom);
162 inline void calculateAquiferConstants()
override
164 this->Tc_ = this->aqufetp_data_.timeConstant();
168 inline void calculateInflowRate(
int idx,
const Simulator& simulator)
override
170 const Scalar td_Tc_ = simulator.timeStepSize() / this->Tc_;
171 const Scalar coef = (1 - exp(-td_Tc_)) / td_Tc_;
173 this->Qai_.at(idx) = coef * this->alphai_[idx] *
174 this->aqufetp_data_.prod_index * dpai(idx);
177 inline void calculateAquiferCondition()
override
179 if (this->solution_set_from_restart_) {
183 if (! this->aqufetp_data_.initial_pressure.has_value()) {
184 this->aqufetp_data_.initial_pressure =
185 this->calculateReservoirEquilibrium();
187 const auto& tables = this->ebos_simulator_.vanguard()
188 .eclState().getTableManager();
190 this->aqufetp_data_.finishInitialisation(tables);
193 this->rhow_ = this->aqufetp_data_.waterDensity();
194 this->pa0_ = this->aqufetp_data_.initial_pressure.value();
195 if (this->aqufetp_data_.initial_temperature.has_value())
196 this->Ta0_ = this->aqufetp_data_.initial_temperature.value();
197 this->aquifer_pressure_ = this->pa0_;
200 virtual Scalar aquiferDepth()
const override
202 return this->aqufetp_data_.datum_depth;
Definition: AquiferAnalytical.hpp:55
Definition: AquiferFetkovich.hpp:39
This file contains a set of helper functions used by VFPProd / VFPInj.
Definition: BlackoilPhases.hpp:27