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Transmissibiliy Equations : Move function to private section

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This commit is contained in:
Magne Sjaastad 2018-09-28 09:03:14 +02:00
parent fe6de813f4
commit c21655f2b4
2 changed files with 56 additions and 66 deletions
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75
ApplicationCode/ReservoirDataModel/RigTransmissibilityEquations.cpp
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@ -1,17 +1,17 @@
///////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////////
// //
// Copyright (C) 2017- Statoil ASA // Copyright (C) 2017- Statoil ASA
// //
// ResInsight is free software: you can redistribute it and/or modify // ResInsight is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by // it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or // the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version. // (at your option) any later version.
// //
// ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY // ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or // WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE. // FITNESS FOR A PARTICULAR PURPOSE.
// //
// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html> // See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
// for more details. // for more details.
// //
///////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////////
@ -23,47 +23,24 @@
#include <cmath> #include <cmath>
//-------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------
/// ///
//-------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------
double RigTransmissibilityEquations::peacemanRadius(double permeabilityNormalDirection1, double RigTransmissibilityEquations::wellBoreTransmissibilityComponent(double cellPerforationVectorComponent,
double permeabilityNormalDirection2, double permeabilityNormalDirection1,
double cellSizeNormalDirection1, double permeabilityNormalDirection2,
double cellSizeNormalDirection2) double cellSizeNormalDirection1,
{ double cellSizeNormalDirection2,
double numerator = cvf::Math::sqrt(
pow(cellSizeNormalDirection2, 2.0) * pow(permeabilityNormalDirection1 / permeabilityNormalDirection2, 0.5)
+ pow(cellSizeNormalDirection1, 2.0) * pow(permeabilityNormalDirection2 / permeabilityNormalDirection1, 0.5) );
double denominator = pow((permeabilityNormalDirection1 / permeabilityNormalDirection2), 0.25 )
+ pow((permeabilityNormalDirection2 / permeabilityNormalDirection1), 0.25 );
double r0 = 0.28 * numerator / denominator;
return r0;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RigTransmissibilityEquations::wellBoreTransmissibilityComponent(double cellPerforationVectorComponent,
double permeabilityNormalDirection1,
double permeabilityNormalDirection2,
double cellSizeNormalDirection1,
double cellSizeNormalDirection2,
double wellRadius, double wellRadius,
double skinFactor, double skinFactor,
double cDarcyForRelevantUnit) double cDarcyForRelevantUnit)
{ {
double K = cvf::Math::sqrt(permeabilityNormalDirection1 * permeabilityNormalDirection2); double K = cvf::Math::sqrt(permeabilityNormalDirection1 * permeabilityNormalDirection2);
double nominator = cDarcyForRelevantUnit * 2 * cvf::PI_D * K * cellPerforationVectorComponent; double nominator = cDarcyForRelevantUnit * 2 * cvf::PI_D * K * cellPerforationVectorComponent;
double peaceManRad = peacemanRadius(permeabilityNormalDirection1, double peaceManRad = peacemanRadius(
permeabilityNormalDirection2, permeabilityNormalDirection1, permeabilityNormalDirection2, cellSizeNormalDirection1, cellSizeNormalDirection2);
cellSizeNormalDirection1,
cellSizeNormalDirection2);
double denominator = log(peaceManRad / wellRadius) + skinFactor; double denominator = log(peaceManRad / wellRadius) + skinFactor;
@ -72,11 +49,29 @@ double RigTransmissibilityEquations::wellBoreTransmissibilityComponent(double ce
} }
//-------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------
/// ///
//-------------------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------------------
double RigTransmissibilityEquations::totalConnectionFactor(double transX, double transY, double transZ) double RigTransmissibilityEquations::totalConnectionFactor(double transX, double transY, double transZ)
{ {
return cvf::Math::sqrt( return cvf::Math::sqrt(pow(transX, 2.0) + pow(transY, 2.0) + pow(transZ, 2.0));
pow(transX, 2.0) + pow(transY, 2.0) + pow(transZ, 2.0));
} }
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RigTransmissibilityEquations::peacemanRadius(double permeabilityNormalDirection1,
double permeabilityNormalDirection2,
double cellSizeNormalDirection1,
double cellSizeNormalDirection2)
{
double numerator = cvf::Math::sqrt(
pow(cellSizeNormalDirection2, 2.0) * pow(permeabilityNormalDirection1 / permeabilityNormalDirection2, 0.5) +
pow(cellSizeNormalDirection1, 2.0) * pow(permeabilityNormalDirection2 / permeabilityNormalDirection1, 0.5));
double denominator = pow((permeabilityNormalDirection1 / permeabilityNormalDirection2), 0.25) +
pow((permeabilityNormalDirection2 / permeabilityNormalDirection1), 0.25);
double r0 = 0.28 * numerator / denominator;
return r0;
}

47
ApplicationCode/ReservoirDataModel/RigTransmissibilityEquations.h
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@ -1,52 +1,47 @@
///////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////////
// //
// Copyright (C) 2017- Statoil ASA // Copyright (C) 2017- Statoil ASA
// //
// ResInsight is free software: you can redistribute it and/or modify // ResInsight is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by // it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or // the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version. // (at your option) any later version.
// //
// ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY // ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or // WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE. // FITNESS FOR A PARTICULAR PURPOSE.
// //
// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html> // See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
// for more details. // for more details.
// //
///////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////////
#pragma once #pragma once
class RigTransmissibilityEquations class RigTransmissibilityEquations
{ {
public: public:
// Calculations are assuming an orthogonal coordinate system // Calculations are assuming an orthogonal coordinate system
// If using wellBoreTransmissibilityComponent to calculate Tx (transmissibility in x direction), static double wellBoreTransmissibilityComponent(double cellPerforationVectorComponent,
double permeabilityNormalDirection1,
double permeabilityNormalDirection2,
double cellSizeNormalDirection1,
double cellSizeNormalDirection2,
double wellRadius,
double skinFactor,
double cDarcyForRelevantUnit);
static double totalConnectionFactor(double transX, double transY, double transZ);
private:
// If using wellBoreTransmissibilityComponent to calculate Tx (transmissibility in x direction),
// perforationVectorComponent is the x component (in the cell local coordinate system) of the perforation vector // perforationVectorComponent is the x component (in the cell local coordinate system) of the perforation vector
// permeability and cell size for Z and Y are to be specified as "normal directions" 1 and 2 // permeability and cell size for Z and Y are to be specified as "normal directions" 1 and 2
// but normal directions 1 and 2 are interchangeable (so Z=1, Y=2 and Z=2, Y=1 gives same result) // but normal directions 1 and 2 are interchangeable (so Z=1, Y=2 and Z=2, Y=1 gives same result)
static double peacemanRadius(double permeabilityNormalDirection1, static double peacemanRadius(double permeabilityNormalDirection1,
double permeabilityNormalDirection2, double permeabilityNormalDirection2,
double cellSizeNormalDirection1, double cellSizeNormalDirection1,
double cellSizeNormalDirection2); double cellSizeNormalDirection2);
static double wellBoreTransmissibilityComponent(double cellPerforationVectorComponent,
double permeabilityNormalDirection1,
double permeabilityNormalDirection2,
double cellSizeNormalDirection1,
double cellSizeNormalDirection2,
double wellRadius,
double skinFactor,
double cDarcyForRelevantUnit);
static double totalConnectionFactor(double transX,
double transY,
double transZ);
}; };