Example #1
0
 double PvtLiveOil::miscible_oil(const double press,
                                 const double* surfvol,
                                 const int pvtTableIdx,
                                 const int item,
                                 const bool deriv) const
 {
     int section;
     double Rval = linearInterpolation(saturated_oil_table_[pvtTableIdx][0],
                                       saturated_oil_table_[pvtTableIdx][3],
                                       press, section);
     double maxR = (surfvol[phase_pos_[Liquid]] == 0.0) ? 0.0 : surfvol[phase_pos_[Vapour]]/surfvol[phase_pos_[Liquid]];
     if (deriv) {
         if (Rval < maxR ) {  // Saturated case
             return linearInterpolationDerivative(saturated_oil_table_[pvtTableIdx][0],
                                                  saturated_oil_table_[pvtTableIdx][item],
                                                  press);
         } else {  // Undersaturated case
             int is = tableIndex(saturated_oil_table_[pvtTableIdx][3], maxR);
             double w = (maxR - saturated_oil_table_[pvtTableIdx][3][is]) /
                 (saturated_oil_table_[pvtTableIdx][3][is+1] - saturated_oil_table_[pvtTableIdx][3][is]);
             assert(undersat_oil_tables_[pvtTableIdx][is][0].size() >= 2);
             assert(undersat_oil_tables_[pvtTableIdx][is+1][0].size() >= 2);
             double val1 =
                 linearInterpolationDerivative(undersat_oil_tables_[pvtTableIdx][is][0],
                                               undersat_oil_tables_[pvtTableIdx][is][item],
                                               press);
             double val2 =
                 linearInterpolationDerivative(undersat_oil_tables_[pvtTableIdx][is+1][0],
                                               undersat_oil_tables_[pvtTableIdx][is+1][item],
                                               press);
             double val = val1 + w*(val2 - val1);
             return val;
         }
     } else {
         if (Rval < maxR ) {  // Saturated case
             return linearInterpolation(saturated_oil_table_[pvtTableIdx][0],
                                        saturated_oil_table_[pvtTableIdx][item],
                                        press);
         } else {  // Undersaturated case
             // Interpolate between table sections
             int is = tableIndex(saturated_oil_table_[pvtTableIdx][3], maxR);
             double w = (maxR - saturated_oil_table_[pvtTableIdx][3][is]) /
                 (saturated_oil_table_[pvtTableIdx][3][is+1] - saturated_oil_table_[pvtTableIdx][3][is]);
             assert(undersat_oil_tables_[pvtTableIdx][is][0].size() >= 2);
             assert(undersat_oil_tables_[pvtTableIdx][is+1][0].size() >= 2);
             double val1 =
                 linearInterpolation(undersat_oil_tables_[pvtTableIdx][is][0],
                                     undersat_oil_tables_[pvtTableIdx][is][item],
                                     press);
             double val2 =
                 linearInterpolation(undersat_oil_tables_[pvtTableIdx][is+1][0],
                                     undersat_oil_tables_[pvtTableIdx][is+1][item],
                                     press);
             double val = val1 + w*(val2 - val1);
             return val;
         }
     }
 }
Example #2
0
    /// Gas resolution and its derivatives at bublepoint as a function of p.
    void SinglePvtLiveGas::rvSat(const int n,
                             const double* p,
                             double* output_rvSat,
                             double* output_drvSatdp) const
    {
        for (int i = 0; i < n; ++i) {
            output_rvSat[i] = linearInterpolation(saturated_gas_table_[0],
                    saturated_gas_table_[3],p[i]);
            output_drvSatdp[i] = linearInterpolationDerivative(saturated_gas_table_[0],
                    saturated_gas_table_[3],p[i]);

        }
    }
 double SinglePvtLiveOil::evalR(double press, const double* surfvol) const
 {
     if (surfvol[phase_pos_[Vapour]] == 0.0) {
         return 0.0;
     }
     double Rval = linearInterpolation(saturated_oil_table_[0],
                                          saturated_oil_table_[3], press);
     double maxR = surfvol[phase_pos_[Vapour]]/surfvol[phase_pos_[Liquid]];
     if (Rval < maxR ) {  // Saturated case
         return Rval;
     } else {
         return maxR;  // Undersaturated case
     }
 }
Example #4
0
    void PvtLiveOil::rsSat(const int n,
                           const int* pvtTableIdx,
                             const double* p,
                             double* output_rsSat,
                             double* output_drsSatdp) const
    {

        for (int i = 0; i < n; ++i) {
            int tableIdx = getTableIndex_(pvtTableIdx, i);
            output_rsSat[i] = linearInterpolation(saturated_oil_table_[tableIdx][0],
                    saturated_oil_table_[tableIdx][3],p[i]);
            output_drsSatdp[i] = linearInterpolationDerivative(saturated_oil_table_[tableIdx][0],
                    saturated_oil_table_[tableIdx][3],p[i]);

        }
    }
Example #5
0
 double SinglePvtLiveGas::evalR(const double press, const double* surfvol) const
 {
     if (surfvol[phase_pos_[Liquid]] == 0.0) {
         // To handle no-gas case.
         return 0.0;
     }
     double satR = linearInterpolation(saturated_gas_table_[0],
                                          saturated_gas_table_[3], press);
     double maxR = surfvol[phase_pos_[Liquid]]/surfvol[phase_pos_[Vapour]];
     if (satR < maxR ) {
         // Saturated case
         return satR;
     } else {
         // Undersaturated case
         return maxR;
     }
 }
 void SinglePvtLiveOil::evalRDeriv(const double press, const double* surfvol,
                                   double& Rval, double& dRdpval) const
 {
     if (surfvol[phase_pos_[Vapour]] == 0.0) {
         Rval = 0.0;
         dRdpval = 0.0;
         return;
     }
     Rval = linearInterpolation(saturated_oil_table_[0],
                                   saturated_oil_table_[3], press);
     double maxR = surfvol[phase_pos_[Vapour]]/surfvol[phase_pos_[Liquid]];
     if (Rval < maxR ) {
         // Saturated case
         dRdpval = linearInterpolationDerivative(saturated_oil_table_[0],
                                         saturated_oil_table_[3],
                                         press);
     } else {
         // Undersaturated case
         Rval = maxR;
         dRdpval = 0.0;
     }
 }
Example #7
0
 void SinglePvtLiveGas::evalRDeriv(const double press, const double* surfvol,
                                   double& Rval, double& dRdpval) const
 {
     if (surfvol[phase_pos_[Liquid]] == 0.0) {
         // To handle no-gas case.
         Rval = 0.0;
         dRdpval = 0.0;
         return;
     }
     double satR = linearInterpolation(saturated_gas_table_[0],
                                          saturated_gas_table_[3], press);
     double maxR = surfvol[phase_pos_[Liquid]]/surfvol[phase_pos_[Vapour]];
     if (satR < maxR ) {
         // Saturated case
         Rval = satR;
         dRdpval = linearInterpolationDerivative(saturated_gas_table_[0],
                                         saturated_gas_table_[3],
                                         press);
     } else {
         // Undersaturated case
         Rval = maxR;
         dRdpval = 0.0;
     }
 }
Example #8
0
    double SinglePvtLiveGas::miscible_gas(const double press,
                                          const double* surfvol,
                                          const int item,
                                          const bool deriv) const
    {
        int section;
        double Rval = linearInterpolation(saturated_gas_table_[0],
                                                saturated_gas_table_[3], press,
                                                section);
        double maxR = surfvol[phase_pos_[Liquid]]/surfvol[phase_pos_[Vapour]];
        if (deriv) {
            if (Rval < maxR ) {  // Saturated case
                return linearInterpolationDerivative(saturated_gas_table_[0],
                                                saturated_gas_table_[item],
                                                press);
            } else {  // Undersaturated case
                int is = section;
                if (undersat_gas_tables_[is][0].size() < 2) {
                    double val = (saturated_gas_table_[item][is+1]
                                  - saturated_gas_table_[item][is]) /
                        (saturated_gas_table_[0][is+1] -
                         saturated_gas_table_[0][is]);
                    return val;
                }
                double val1 =
                    linearInterpolation(undersat_gas_tables_[is][0],
                                              undersat_gas_tables_[is][item],
                                              maxR);
                double val2 =
                    linearInterpolation(undersat_gas_tables_[is+1][0],
                                              undersat_gas_tables_[is+1][item],
                                              maxR);
                double val = (val2 - val1)/
                    (saturated_gas_table_[0][is+1] - saturated_gas_table_[0][is]);
                return val;
            }
        } else {
            if (Rval < maxR ) {  // Saturated case
                return linearInterpolation(saturated_gas_table_[0],
                                                 saturated_gas_table_[item],
                                                 press);
            } else {  // Undersaturated case
                int is = section;
                // Extrapolate from first table section
                if (is == 0 && press < saturated_gas_table_[0][0]) {
                    return linearInterpolation(undersat_gas_tables_[0][0],
                                                     undersat_gas_tables_[0][item],
                                                     maxR);
                }

                // Extrapolate from last table section
                int ltp = saturated_gas_table_[0].size() - 1;
                if (is+1 == ltp && press > saturated_gas_table_[0][ltp]) {
                    return linearInterpolation(undersat_gas_tables_[ltp][0],
                                                     undersat_gas_tables_[ltp][item],
                                                     maxR);
                }

                // Interpolate between table sections
                double w = (press - saturated_gas_table_[0][is]) /
                    (saturated_gas_table_[0][is+1] -
                     saturated_gas_table_[0][is]);
                if (undersat_gas_tables_[is][0].size() < 2) {
                    double val = saturated_gas_table_[item][is] +
                        w*(saturated_gas_table_[item][is+1] -
                           saturated_gas_table_[item][is]);
                    return val;
                }
                double val1 =
                    linearInterpolation(undersat_gas_tables_[is][0],
                                              undersat_gas_tables_[is][item],
                                              maxR);
                double val2 =
                    linearInterpolation(undersat_gas_tables_[is+1][0],
                                              undersat_gas_tables_[is+1][item],
                                              maxR);
                double val = val1 + w*(val2 - val1);
                return val;
            }
        }
    }
Example #9
0
    double SinglePvtLiveOil::miscible_oil(const double press,
                                          const double r,
                                          const PhasePresence& cond,
                                          const int item,
                                          const int deriv) const
    {
        const bool isSat = cond.hasFreeGas();

        // derivative with respect to frist component (pressure)
        if (deriv == 1) {
            if (isSat) {  // Saturated case
                return linearInterpolationDerivative(saturated_oil_table_[0],
                                                saturated_oil_table_[item],
                                                press);
            } else {  // Undersaturated case
                int is = tableIndex(saturated_oil_table_[3], r);
                double w = (r - saturated_oil_table_[3][is]) /
                    (saturated_oil_table_[3][is+1] - saturated_oil_table_[3][is]);
                assert(undersat_oil_tables_[is][0].size() >= 2);
                assert(undersat_oil_tables_[is+1][0].size() >= 2);
                double val1 =
                    linearInterpolationDerivative(undersat_oil_tables_[is][0],
                                             undersat_oil_tables_[is][item],
                                             press);
                double val2 =
                    linearInterpolationDerivative(undersat_oil_tables_[is+1][0],
                                             undersat_oil_tables_[is+1][item],
                                             press);
                double val = val1 + w*(val2 - val1);
                return val;
            }
            // derivative with respect to second component (r)
        } else if (deriv == 2)  {
            if (isSat) {  // Saturated case
                return 0;
            } else {  // Undersaturated case
                int is = tableIndex(saturated_oil_table_[3], r);
                assert(undersat_oil_tables_[is][0].size() >= 2);
                assert(undersat_oil_tables_[is+1][0].size() >= 2);
                double val1 =
                    linearInterpolation(undersat_oil_tables_[is][0],
                                              undersat_oil_tables_[is][item],
                                              press);
                double val2 =
                    linearInterpolation(undersat_oil_tables_[is+1][0],
                                              undersat_oil_tables_[is+1][item],
                                              press);

                double val = (val2 - val1)/(saturated_oil_table_[3][is+1]-saturated_oil_table_[3][is]);
                return val;
            }


            }    else {
            if (isSat) {  // Saturated case
                return linearInterpolation(saturated_oil_table_[0],
                                                 saturated_oil_table_[item],
                                                 press);
            } else {  // Undersaturated case
                // Interpolate between table sections
                int is = tableIndex(saturated_oil_table_[3], r);
                double w = (r - saturated_oil_table_[3][is]) /
                    (saturated_oil_table_[3][is+1] - saturated_oil_table_[3][is]);
                assert(undersat_oil_tables_[is][0].size() >= 2);
                assert(undersat_oil_tables_[is+1][0].size() >= 2);
                double val1 =
                    linearInterpolation(undersat_oil_tables_[is][0],
                                              undersat_oil_tables_[is][item],
                                              press);
                double val2 =
                    linearInterpolation(undersat_oil_tables_[is+1][0],
                                              undersat_oil_tables_[is+1][item],
                                              press);
                double val = val1 + w*(val2 - val1);
                return val;
            }
        }
    }
Example #10
0
    double PvtLiveOil::miscible_oil(const double press,
                                    const double r,
                                    const int pvtTableIdx,
                                    const int item,
                                    const int deriv) const
    {
        int section;
        double Rval = linearInterpolation(saturated_oil_table_[pvtTableIdx][0],
                                          saturated_oil_table_[pvtTableIdx][3],
                                          press, section);
        // derivative with respect to frist component (pressure)
        if (deriv == 1) {
            if (Rval <= r ) {  // Saturated case
                return linearInterpolationDerivative(saturated_oil_table_[pvtTableIdx][0],
                                                     saturated_oil_table_[pvtTableIdx][item],
                                                     press);
            } else {  // Undersaturated case
                int is = tableIndex(saturated_oil_table_[pvtTableIdx][3], r);
                double w = (r - saturated_oil_table_[pvtTableIdx][3][is]) /
                    (saturated_oil_table_[pvtTableIdx][3][is+1] - saturated_oil_table_[pvtTableIdx][3][is]);
                assert(undersat_oil_tables_[pvtTableIdx][is][0].size() >= 2);
                assert(undersat_oil_tables_[pvtTableIdx][is+1][0].size() >= 2);
                double val1 =
                    linearInterpolationDerivative(undersat_oil_tables_[pvtTableIdx][is][0],
                                             undersat_oil_tables_[pvtTableIdx][is][item],
                                             press);
                double val2 =
                    linearInterpolationDerivative(undersat_oil_tables_[pvtTableIdx][is+1][0],
                                             undersat_oil_tables_[pvtTableIdx][is+1][item],
                                             press);
                double val = val1 + w*(val2 - val1);
                return val;
            }
            // derivative with respect to second component (r)
        } else if (deriv == 2)  {
            if (Rval <= r ) {  // Saturated case
                return 0;
            } else {  // Undersaturated case
                int is = tableIndex(saturated_oil_table_[pvtTableIdx][3], r);
                assert(undersat_oil_tables_[pvtTableIdx][is][0].size() >= 2);
                assert(undersat_oil_tables_[pvtTableIdx][is+1][0].size() >= 2);
                double val1 =
                    linearInterpolation(undersat_oil_tables_[pvtTableIdx][is][0],
                                              undersat_oil_tables_[pvtTableIdx][is][item],
                                              press);
                double val2 =
                    linearInterpolation(undersat_oil_tables_[pvtTableIdx][is+1][0],
                                              undersat_oil_tables_[pvtTableIdx][is+1][item],
                                              press);

                double val = (val2 - val1)/(saturated_oil_table_[pvtTableIdx][3][is+1]-saturated_oil_table_[pvtTableIdx][3][is]);
                return val;
            }


            }    else {
            if (Rval <= r ) {  // Saturated case
                return linearInterpolation(saturated_oil_table_[pvtTableIdx][0],
                                           saturated_oil_table_[pvtTableIdx][item],
                                           press);
            } else {  // Undersaturated case
                // Interpolate between table sections
                int is = tableIndex(saturated_oil_table_[pvtTableIdx][3], r);
                double w = (r - saturated_oil_table_[pvtTableIdx][3][is]) /
                    (saturated_oil_table_[pvtTableIdx][3][is+1] - saturated_oil_table_[pvtTableIdx][3][is]);
                assert(undersat_oil_tables_[pvtTableIdx][is][0].size() >= 2);
                assert(undersat_oil_tables_[pvtTableIdx][is+1][0].size() >= 2);
                double val1 =
                    linearInterpolation(undersat_oil_tables_[pvtTableIdx][is][0],
                                              undersat_oil_tables_[pvtTableIdx][is][item],
                                              press);
                double val2 =
                    linearInterpolation(undersat_oil_tables_[pvtTableIdx][is+1][0],
                                              undersat_oil_tables_[pvtTableIdx][is+1][item],
                                              press);
                double val = val1 + w*(val2 - val1);
                return val;
            }
        }
    }
Example #11
0
    double SinglePvtLiveGas::miscible_gas(const double press,
                                          const double r,
                                          const PhasePresence& cond,
                                          const int item,
                                          const int deriv) const
{
    const bool isSat = cond.hasFreeOil();

        // Derivative w.r.t p
        if (deriv == 1) {
            if (isSat) {  // Saturated case
                return linearInterpolationDerivative(saturated_gas_table_[0],
                                                saturated_gas_table_[item],
                                                press);
            } else {  // Undersaturated case
                int is = tableIndex(saturated_gas_table_[0], press);
                if (undersat_gas_tables_[is][0].size() < 2) {
                    double val = (saturated_gas_table_[item][is+1]
                                  - saturated_gas_table_[item][is]) /
                        (saturated_gas_table_[0][is+1] -
                         saturated_gas_table_[0][is]);
                    return val;
                }
                double val1 =
                    linearInterpolation(undersat_gas_tables_[is][0],
                                              undersat_gas_tables_[is][item],
                                              r);
                double val2 =
                    linearInterpolation(undersat_gas_tables_[is+1][0],
                                              undersat_gas_tables_[is+1][item],
                                              r);
                double val = (val2 - val1)/
                    (saturated_gas_table_[0][is+1] - saturated_gas_table_[0][is]);
                return val;
            }
        } else if (deriv == 2){
            if (isSat) {
                return 0;
            } else {
                int is = tableIndex(saturated_gas_table_[0], press);
                double w = (press - saturated_gas_table_[0][is]) /
                    (saturated_gas_table_[0][is+1] - saturated_gas_table_[0][is]);
                assert(undersat_gas_tables_[is][0].size() >= 2);
                assert(undersat_gas_tables_[is+1][0].size() >= 2);
                double val1 =
                    linearInterpolationDerivative(undersat_gas_tables_[is][0],
                                              undersat_gas_tables_[is][item],
                                              r);
                double val2 =
                    linearInterpolationDerivative(undersat_gas_tables_[is+1][0],
                                              undersat_gas_tables_[is+1][item],
                                              r);

                double val = val1 + w * (val2 - val1);
                return val;

            }
        } else {
            if (isSat) {  // Saturated case
                return linearInterpolation(saturated_gas_table_[0],
                                                 saturated_gas_table_[item],
                                                 press);
            } else {  // Undersaturated case
                int is = tableIndex(saturated_gas_table_[0], press);
                // Extrapolate from first table section
                if (is == 0 && press < saturated_gas_table_[0][0]) {
                    return linearInterpolation(undersat_gas_tables_[0][0],
                                                     undersat_gas_tables_[0][item],
                                                     r);
                }

                // Extrapolate from last table section
                //int ltp = saturated_gas_table_[0].size() - 1;
                //if (is+1 == ltp && press > saturated_gas_table_[0][ltp]) {
                //    return linearInterpolation(undersat_gas_tables_[ltp][0],
                //                                    undersat_gas_tables_[ltp][item],
                //                                    r);
                //}

                // Interpolate between table sections
                double w = (press - saturated_gas_table_[0][is]) /
                    (saturated_gas_table_[0][is+1] -
                     saturated_gas_table_[0][is]);
                if (undersat_gas_tables_[is][0].size() < 2) {
                    double val = saturated_gas_table_[item][is] +
                        w*(saturated_gas_table_[item][is+1] -
                           saturated_gas_table_[item][is]);
                    return val;
                }
                double val1 =
                    linearInterpolation(undersat_gas_tables_[is][0],
                                              undersat_gas_tables_[is][item],
                                              r);
                double val2 =
                    linearInterpolation(undersat_gas_tables_[is+1][0],
                                              undersat_gas_tables_[is+1][item],
                                              r);
                double val = val1 + w*(val2 - val1);
                return val;
            }
        }
    }