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ResInsight/ApplicationCode/ProjectDataModel/Completions/RimEllipseFractureTemplate.cpp
Magne Sjaastad 2ddc3d77df #3089 Non-Darcy longitudinal : Add support for longitudinal fractures 
- move non-darcy data from template to fracture, as this data is now depending of fracutre
- compute weighted average of stimplan width and conductivity based on fracture perforation length
- use referringPtrFields() to find fractures using this fracture template
2018-08-15 09:53:52 +02:00

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/////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2016- Statoil ASA
//
// ResInsight is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE.
//
// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
// for more details.
//
/////////////////////////////////////////////////////////////////////////////////
#include "RimEllipseFractureTemplate.h"
#include "RiaApplication.h"
#include "RiaEclipseUnitTools.h"
#include "RiaFractureDefines.h"
#include "RiaLogging.h"
#include "RigCellGeometryTools.h"
#include "RigFractureCell.h"
#include "RigFractureGrid.h"
#include "RigStatisticsMath.h"
#include "RigTesselatorTools.h"
#include "RimEclipseView.h"
#include "RimFracture.h"
#include "RimFractureContainment.h"
#include "RimFractureTemplate.h"
#include "RimProject.h"
#include "RimStimPlanColors.h"
#include "cafPdmObject.h"
#include "cvfGeometryTools.h"
#include "cvfVector3.h"
CAF_PDM_SOURCE_INIT(RimEllipseFractureTemplate, "RimEllipseFractureTemplate");
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimEllipseFractureTemplate::RimEllipseFractureTemplate()
{
// clang-format off
CAF_PDM_InitObject("Fracture Template", ":/FractureTemplate16x16.png", "", "");
CAF_PDM_InitField(&m_halfLength, "HalfLength", 0.0, "Halflength X<sub>f</sub>", "", "", "");
CAF_PDM_InitField(&m_height, "Height", 0.0, "Height", "", "", "");
CAF_PDM_InitField(&m_width, "Width", 0.0, "Width", "", "", "");
CAF_PDM_InitField(&m_permeability,"Permeability", 0.0, "Permeability [mD]", "", "", "");
m_fractureGrid = new RigFractureGrid();
assignConductivityToCellsInsideEllipse();
// clang-format on
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RimEllipseFractureTemplate::~RimEllipseFractureTemplate() {}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::loadDataAndUpdate()
{
assignConductivityToCellsInsideEllipse();
RimEclipseView* activeView = dynamic_cast<RimEclipseView*>(RiaApplication::instance()->activeReservoirView());
if (activeView) activeView->loadDataAndUpdate();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::fieldChangedByUi(const caf::PdmFieldHandle* changedField,
const QVariant& oldValue,
const QVariant& newValue)
{
RimFractureTemplate::fieldChangedByUi(changedField, oldValue, newValue);
if (changedField == &m_halfLength || changedField == &m_height || changedField == &m_width ||
changedField == &m_permeability || changedField == &m_scaleApplyButton)
{
m_scaleApplyButton = false;
// Changes to one of these parameters should change all fractures with this fracture template attached.
reload();
}
if (changedField == &m_width || changedField == &m_permeability)
{
assignConductivityToCellsInsideEllipse();
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::fractureTriangleGeometry(std::vector<cvf::Vec3f>* nodeCoords,
std::vector<cvf::uint>* triangleIndices) const
{
RigEllipsisTesselator tesselator(20);
float a = m_halfLength * m_widthScaleFactor;
float b = m_height / 2.0f * m_heightScaleFactor;
tesselator.tesselateEllipsis(a, b, triangleIndices, nodeCoords);
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::vector<cvf::Vec3f> RimEllipseFractureTemplate::fractureBorderPolygon() const
{
std::vector<cvf::Vec3f> polygon;
std::vector<cvf::Vec3f> nodeCoords;
std::vector<cvf::uint> triangleIndices;
fractureTriangleGeometry(&nodeCoords, &triangleIndices);
for (size_t i = 1; i < nodeCoords.size(); i++)
{
polygon.push_back(nodeCoords[i]);
}
return polygon;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::changeUnits()
{
if (fractureTemplateUnit() == RiaEclipseUnitTools::UNITS_METRIC)
{
convertToUnitSystem(RiaEclipseUnitTools::UNITS_FIELD);
}
else if (fractureTemplateUnit() == RiaEclipseUnitTools::UNITS_FIELD)
{
convertToUnitSystem(RiaEclipseUnitTools::UNITS_METRIC);
}
this->updateConnectedEditors();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::assignConductivityToCellsInsideEllipse()
{
std::vector<RigFractureCell> fractureCells;
int numberOfCellsI = 35;
int numberOfCellsJ = 35;
double height = m_height * m_heightScaleFactor;
double halfLength = m_halfLength * m_widthScaleFactor;
double cellSizeX = (halfLength * 2) / numberOfCellsI * m_widthScaleFactor;
double cellSizeZ = height / numberOfCellsJ * m_heightScaleFactor;
double cellArea = cellSizeX * cellSizeZ;
double areaTresholdForIncludingCell = 0.5 * cellArea;
for (int i = 0; i < numberOfCellsI; i++)
{
for (int j = 0; j < numberOfCellsJ; j++)
{
double X1 = -halfLength + i * cellSizeX;
double X2 = -halfLength + (i + 1) * cellSizeX;
double Y1 = -height / 2 + j * cellSizeZ;
double Y2 = -height / 2 + (j + 1) * cellSizeZ;
std::vector<cvf::Vec3d> cellPolygon;
cellPolygon.push_back(cvf::Vec3d(X1, Y1, 0.0));
cellPolygon.push_back(cvf::Vec3d(X2, Y1, 0.0));
cellPolygon.push_back(cvf::Vec3d(X2, Y2, 0.0));
cellPolygon.push_back(cvf::Vec3d(X1, Y2, 0.0));
double cond = conductivity();
std::vector<cvf::Vec3f> ellipseFracPolygon = fractureBorderPolygon();
std::vector<cvf::Vec3d> ellipseFracPolygonDouble;
for (const auto& v : ellipseFracPolygon)
ellipseFracPolygonDouble.push_back(static_cast<cvf::Vec3d>(v));
std::vector<std::vector<cvf::Vec3d>> clippedFracturePolygons =
RigCellGeometryTools::intersectPolygons(cellPolygon, ellipseFracPolygonDouble);
if (!clippedFracturePolygons.empty())
{
for (const auto& clippedFracturePolygon : clippedFracturePolygons)
{
double areaCutPolygon = cvf::GeometryTools::polygonAreaNormal3D(clippedFracturePolygon).length();
if (areaCutPolygon < areaTresholdForIncludingCell)
{
cond = 0.0; // Cell is excluded from calculation, cond is set to zero. Must be included for indexing to be
// correct
}
}
}
else
cond = 0.0;
RigFractureCell fractureCell(cellPolygon, i, j);
fractureCell.setConductivityValue(cond);
fractureCells.push_back(fractureCell);
}
}
m_fractureGrid->setFractureCells(fractureCells);
// Set well intersection to center of ellipse
std::pair<size_t, size_t> wellCenterFractureCellIJ = std::make_pair(numberOfCellsI / 2, numberOfCellsJ / 2);
m_fractureGrid->setWellCenterFractureCellIJ(wellCenterFractureCellIJ);
m_fractureGrid->setICellCount(numberOfCellsI);
m_fractureGrid->setJCellCount(numberOfCellsJ);
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
FractureWidthAndConductivity RimEllipseFractureTemplate::widthAndConductivityAtWellPathIntersection(const RimFracture* fractureInstance) const
{
FractureWidthAndConductivity values;
values.m_width = m_width;
values.m_permeability = m_permeability;
return values;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
const RigFractureGrid* RimEllipseFractureTemplate::fractureGrid() const
{
return m_fractureGrid.p();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::setDefaultValuesFromUnit()
{
if (fractureTemplateUnit() == RiaEclipseUnitTools::UNITS_FIELD)
{
m_width = 0.5;
m_permeability = 80000.0;
m_halfLength = 300.0;
m_height = 225.0;
}
else
{
m_width = 0.01;
m_permeability = 100000.0;
m_halfLength = 100.0;
m_height = 75.0;
}
this->setDefaultWellDiameterFromUnit();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEllipseFractureTemplate::conductivity() const
{
double cond = cvf::UNDEFINED_DOUBLE;
if (fractureTemplateUnit() == RiaEclipseUnitTools::UNITS_METRIC)
{
// Conductivity should be md-m, width is in m
cond = m_permeability * m_width;
}
else if (fractureTemplateUnit() == RiaEclipseUnitTools::UNITS_FIELD)
{
// Conductivity should be md-ft, but width is in inches
cond = m_permeability * RiaEclipseUnitTools::inchToFeet(m_width);
}
return m_conductivityScaleFactor * cond;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEllipseFractureTemplate::halfLength() const
{
return m_halfLength;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEllipseFractureTemplate::height() const
{
return m_height;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
double RimEllipseFractureTemplate::width() const
{
return m_width;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::appendDataToResultStatistics(const QString& uiResultName,
const QString& unit,
MinMaxAccumulator& minMaxAccumulator,
PosNegAccumulator& posNegAccumulator) const
{
if (uiResultName == RiaDefines::conductivityResultName())
{
minMaxAccumulator.addValue(conductivity());
posNegAccumulator.addValue(conductivity());
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::vector<std::pair<QString, QString>> RimEllipseFractureTemplate::uiResultNamesWithUnit() const
{
std::vector<std::pair<QString, QString>> propertyNamesAndUnits;
QString condUnit = RiaDefines::unitStringConductivity(fractureTemplateUnit());
propertyNamesAndUnits.push_back(std::make_pair(RiaDefines::conductivityResultName(), condUnit));
return propertyNamesAndUnits;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::reload()
{
RimProject* proj;
this->firstAncestorOrThisOfType(proj);
if (proj)
{
proj->reloadCompletionTypeResultsInAllViews();
assignConductivityToCellsInsideEllipse();
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::convertToUnitSystem(RiaEclipseUnitTools::UnitSystem neededUnit)
{
if (m_fractureTemplateUnit() == neededUnit) return;
setFractureTemplateUnit(neededUnit);
RimFractureTemplate::convertToUnitSystem(neededUnit);
if (neededUnit == RiaEclipseUnitTools::UNITS_FIELD)
{
m_halfLength = RiaEclipseUnitTools::meterToFeet(m_halfLength);
m_height = RiaEclipseUnitTools::meterToFeet(m_height);
m_width = RiaEclipseUnitTools::meterToInch(m_width);
}
else if (neededUnit == RiaEclipseUnitTools::UNITS_METRIC)
{
m_halfLength = RiaEclipseUnitTools::feetToMeter(m_halfLength);
m_height = RiaEclipseUnitTools::feetToMeter(m_height);
m_width = RiaEclipseUnitTools::inchToMeter(m_width);
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RimEllipseFractureTemplate::defineUiOrdering(QString uiConfigName, caf::PdmUiOrdering& uiOrdering)
{
if (fractureTemplateUnit() == RiaEclipseUnitTools::UNITS_METRIC)
{
m_halfLength.uiCapability()->setUiName("Halflenght X<sub>f</sub> [m]");
m_height.uiCapability()->setUiName("Height [m]");
m_width.uiCapability()->setUiName("Width [m]");
}
else if (fractureTemplateUnit() == RiaEclipseUnitTools::UNITS_FIELD)
{
m_halfLength.uiCapability()->setUiName("Halflenght X<sub>f</sub> [ft]");
m_height.uiCapability()->setUiName("Height [ft]");
m_width.uiCapability()->setUiName("Width [inches]");
}
if (conductivityType() == FINITE_CONDUCTIVITY)
{
m_permeability.uiCapability()->setUiHidden(false);
m_width.uiCapability()->setUiHidden(false);
}
else if (conductivityType() == INFINITE_CONDUCTIVITY)
{
m_permeability.uiCapability()->setUiHidden(true);
m_width.uiCapability()->setUiHidden(true);
}
uiOrdering.add(&m_name);
uiOrdering.add(&m_id);
caf::PdmUiGroup* geometryGroup = uiOrdering.addNewGroup("Geometry");
geometryGroup->add(&m_halfLength);
geometryGroup->add(&m_height);
geometryGroup->add(&m_orientationType);
geometryGroup->add(&m_azimuthAngle);
caf::PdmUiGroup* trGr = uiOrdering.addNewGroup("Fracture Truncation");
m_fractureContainment()->uiOrdering(uiConfigName, *trGr);
caf::PdmUiGroup* propertyGroup = uiOrdering.addNewGroup("Properties");
propertyGroup->add(&m_conductivityType);
propertyGroup->add(&m_permeability);
propertyGroup->add(&m_width);
propertyGroup->add(&m_skinFactor);
propertyGroup->add(&m_perforationLength);
propertyGroup->add(&m_perforationEfficiency);
propertyGroup->add(&m_wellDiameter);
RimFractureTemplate::defineUiOrdering(uiConfigName, uiOrdering);
}
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