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178 lines
7.9 KiB
C++
178 lines
7.9 KiB
C++
/*
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Copyright 2012 SINTEF ICT, Applied Mathematics.
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef OPM_BLACKOILPROPERTIESBASIC_HEADER_INCLUDED
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#define OPM_BLACKOILPROPERTIESBASIC_HEADER_INCLUDED
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#include <opm/core/fluid/BlackoilPropertiesInterface.hpp>
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#include <opm/core/fluid/RockBasic.hpp>
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#include <opm/core/fluid/PvtPropertiesBasic.hpp>
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#include <opm/core/fluid/SaturationPropsBasic.hpp>
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namespace Opm
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{
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/// Concrete class implementing the blackoil property interface,
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/// reading all necessary input from parameters.
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class BlackoilPropertiesBasic : public BlackoilPropertiesInterface
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{
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public:
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/// Construct from parameters.
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/// The following parameters are accepted (defaults):
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/// num_phases (2) Must be 1 or 2.
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/// relperm_func ("Linear") Must be "Constant", "Linear" or "Quadratic".
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/// rho1 [rho2, rho3] (1.0e3) Density in kg/m^3
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/// mu1 [mu2, mu3] (1.0) Viscosity in cP
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/// porosity (1.0) Porosity
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/// permeability (100.0) Permeability in mD
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BlackoilPropertiesBasic(const parameter::ParameterGroup& param,
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const int dim,
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const int num_cells);
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/// Destructor.
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virtual ~BlackoilPropertiesBasic();
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// ---- Rock interface ----
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/// \return D, the number of spatial dimensions.
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virtual int numDimensions() const;
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/// \return N, the number of cells.
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virtual int numCells() const;
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/// \return Array of N porosity values.
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virtual const double* porosity() const;
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/// \return Array of ND^2 permeability values.
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/// The D^2 permeability values for a cell are organized as a matrix,
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/// which is symmetric (so ordering does not matter).
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virtual const double* permeability() const;
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// ---- Fluid interface ----
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/// \return P, the number of phases (also the number of components).
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virtual int numPhases() const;
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/// \param[in] n Number of data points.
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/// \param[in] p Array of n pressure values.
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/// \param[in] z Array of nP surface volume values.
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/// \param[in] cells Array of n cell indices to be associated with the p and z values.
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/// \param[out] mu Array of nP viscosity values, array must be valid before calling.
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/// \param[out] dmudp If non-null: array of nP viscosity derivative values,
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/// array must be valid before calling.
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virtual void viscosity(const int n,
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const double* p,
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const double* z,
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const int* cells,
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double* mu,
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double* dmudp) const;
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/// \param[in] n Number of data points.
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/// \param[in] p Array of n pressure values.
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/// \param[in] z Array of nP surface volume values.
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/// \param[in] cells Array of n cell indices to be associated with the p and z values.
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/// \param[out] A Array of nP^2 values, array must be valid before calling.
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/// The P^2 values for a cell give the matrix A = RB^{-1} which
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/// relates z to u by z = Au. The matrices are output in Fortran order.
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/// \param[out] dAdp If non-null: array of nP^2 matrix derivative values,
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/// array must be valid before calling. The matrices are output
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/// in Fortran order.
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virtual void matrix(const int n,
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const double* p,
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const double* z,
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const int* cells,
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double* A,
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double* dAdp) const;
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/// Densities of stock components at reservoir conditions.
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/// \param[in] n Number of data points.
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/// \param[in] A Array of nP^2 values, where the P^2 values for a cell give the
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/// matrix A = RB^{-1} which relates z to u by z = Au. The matrices
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/// are assumed to be in Fortran order, and are typically the result
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/// of a call to the method matrix().
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/// \param[out] rho Array of nP density values, array must be valid before calling.
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virtual void density(const int n,
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const double* A,
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double* rho) const;
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/// Densities of stock components at surface conditions.
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/// \return Array of P density values.
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virtual const double* surfaceDensity() const;
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/// \param[in] n Number of data points.
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/// \param[in] s Array of nP saturation values.
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/// \param[in] cells Array of n cell indices to be associated with the s values.
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/// \param[out] kr Array of nP relperm values, array must be valid before calling.
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/// \param[out] dkrds If non-null: array of nP^2 relperm derivative values,
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/// array must be valid before calling.
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/// The P^2 derivative matrix is
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/// m_{ij} = \frac{dkr_i}{ds^j},
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/// and is output in Fortran order (m_00 m_10 m_20 m_01 ...)
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virtual void relperm(const int n,
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const double* s,
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const int* cells,
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double* kr,
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double* dkrds) const;
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/// \param[in] n Number of data points.
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/// \param[in] s Array of nP saturation values.
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/// \param[in] cells Array of n cell indices to be associated with the s values.
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/// \param[out] pc Array of nP capillary pressure values, array must be valid before calling.
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/// \param[out] dpcds If non-null: array of nP^2 derivative values,
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/// array must be valid before calling.
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/// The P^2 derivative matrix is
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/// m_{ij} = \frac{dpc_i}{ds^j},
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/// and is output in Fortran order (m_00 m_10 m_20 m_01 ...)
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virtual void capPress(const int n,
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const double* s,
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const int* cells,
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double* pc,
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double* dpcds) const;
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/// Obtain the range of allowable saturation values.
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/// In cell cells[i], saturation of phase p is allowed to be
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/// in the interval [smin[i*P + p], smax[i*P + p]].
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/// \param[in] n Number of data points.
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/// \param[in] cells Array of n cell indices.
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/// \param[out] smin Array of nP minimum s values, array must be valid before calling.
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/// \param[out] smax Array of nP maximum s values, array must be valid before calling.
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virtual void satRange(const int n,
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const int* cells,
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double* smin,
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double* smax) const;
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private:
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RockBasic rock_;
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PvtPropertiesBasic pvt_;
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SaturationPropsBasic satprops_;
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};
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} // namespace Opm
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#endif // OPM_BLACKOILPROPERTIESBASIC_HEADER_INCLUDED
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