///////////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2017 - 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 // for more details. // ///////////////////////////////////////////////////////////////////////////////// #include "RimFractureTemplate.h" #include "RiaFractureDefines.h" #include "RigTesselatorTools.h" #include "RimFracture.h" #include "RimFractureContainment.h" #include "RimProject.h" #include "cafPdmObject.h" #include "cafPdmUiDoubleSliderEditor.h" #include "cafPdmUiDoubleValueEditor.h" #include "cafPdmUiTextEditor.h" #include "cafPdmUiPushButtonEditor.h" #include "cvfVector3.h" #include namespace caf { template<> void caf::AppEnum< RimFractureTemplate::FracOrientationEnum>::setUp() { addItem(RimFractureTemplate::AZIMUTH, "Az", "Azimuth"); addItem(RimFractureTemplate::ALONG_WELL_PATH, "AlongWellPath", "Along Well Path"); addItem(RimFractureTemplate::TRANSVERSE_WELL_PATH, "TransverseWellPath", "Transverse (normal) to Well Path"); setDefault(RimFractureTemplate::TRANSVERSE_WELL_PATH); } template<> void caf::AppEnum< RimFractureTemplate::FracConductivityEnum>::setUp() { addItem(RimFractureTemplate::INFINITE_CONDUCTIVITY, "InfiniteConductivity", "Infinite Conductivity"); addItem(RimFractureTemplate::FINITE_CONDUCTIVITY, "FiniteConductivity", "Finite Conductivity"); setDefault(RimFractureTemplate::INFINITE_CONDUCTIVITY); } template<> void caf::AppEnum< RimFractureTemplate::PermeabilityEnum>::setUp() { addItem(RimFractureTemplate::USER_DEFINED_PERMEABILITY, "UserDefinedPermeability", "User Defined"); addItem(RimFractureTemplate::CONDUCTIVITY_FROM_FRACTURE, "FractureConductivity", "Use Fracture Conductivity"); setDefault(RimFractureTemplate::CONDUCTIVITY_FROM_FRACTURE); } template<> void caf::AppEnum::setUp() { addItem(RimFractureTemplate::USER_DEFINED_WIDTH, "UserDefinedWidth", "User Defined"); addItem(RimFractureTemplate::WIDTH_FROM_FRACTURE, "FractureWidth", "Use Fracture Width"); setDefault(RimFractureTemplate::WIDTH_FROM_FRACTURE); } template<> void caf::AppEnum::setUp() { addItem(RimFractureTemplate::NON_DARCY_NONE, "None", "None"); addItem(RimFractureTemplate::NON_DARCY_COMPUTED, "Computed", "Compute D-factor from Parameters"); addItem(RimFractureTemplate::NON_DARCY_USER_DEFINED,"UserDefined", "By User Defined D-factor"); setDefault(RimFractureTemplate::NON_DARCY_NONE); } } // TODO Move to cafPdmObject.h #define CAF_PDM_InitField_Basic(field, keyword, default, uiName) CAF_PDM_InitField(field, keyword, default, uiName, "", "", "") CAF_PDM_XML_ABSTRACT_SOURCE_INIT(RimFractureTemplate, "RimFractureTemplate"); //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimFractureTemplate::RimFractureTemplate() { CAF_PDM_InitObject("Fracture Template", ":/FractureTemplate16x16.png", "", ""); CAF_PDM_InitField(&m_name, "UserDescription", QString("Fracture Template"), "Name", "", "", ""); CAF_PDM_InitFieldNoDefault(&m_nameAndUnit, "NameAndUnit", "NameAndUnit", "", "", ""); m_nameAndUnit.registerGetMethod(this, &RimFractureTemplate::nameAndUnit); m_nameAndUnit.uiCapability()->setUiHidden(true); m_nameAndUnit.xmlCapability()->disableIO(); CAF_PDM_InitField(&m_fractureTemplateUnit, "UnitSystem", caf::AppEnum(RiaEclipseUnitTools::UNITS_METRIC), "Units System", "", "", ""); m_fractureTemplateUnit.uiCapability()->setUiReadOnly(true); CAF_PDM_InitField(&m_orientationType, "Orientation", caf::AppEnum(TRANSVERSE_WELL_PATH), "Fracture Orientation", "", "", ""); CAF_PDM_InitField(&m_azimuthAngle, "AzimuthAngle", 0.0f, "Azimuth Angle", "", "", ""); //Is this correct description? CAF_PDM_InitField(&m_skinFactor, "SkinFactor", 0.0f, "Skin Factor", "", "", ""); CAF_PDM_InitField(&m_perforationLength, "PerforationLength", 1.0, "Perforation Length", "", "", ""); CAF_PDM_InitField(&m_perforationEfficiency, "PerforationEfficiency", 1.0, "Perforation Efficiency", "", "", ""); m_perforationEfficiency.uiCapability()->setUiEditorTypeName(caf::PdmUiDoubleSliderEditor::uiEditorTypeName()); CAF_PDM_InitField(&m_wellDiameter, "WellDiameter", 0.216, "Well Diameter at Fracture", "", "", ""); CAF_PDM_InitField(&m_conductivityType, "ConductivityType", caf::AppEnum(FINITE_CONDUCTIVITY), "Conductivity in Fracture", "", "", ""); CAF_PDM_InitFieldNoDefault(&m_fractureContainment, "FractureContainmentField", "Fracture Containment", "", "", ""); m_fractureContainment = new RimFractureContainment(); m_fractureContainment.uiCapability()->setUiTreeHidden(true); m_fractureContainment.uiCapability()->setUiTreeChildrenHidden(true); // Non-Darcy Flow options CAF_PDM_InitFieldNoDefault(&m_nonDarcyFlowType, "NonDarcyFlowType", "Non-Darcy Flow", "", "", ""); CAF_PDM_InitField(&m_userDefinedDFactor, "UserDefinedDFactor", 1.0, "D Factor", "", "", ""); CAF_PDM_InitFieldNoDefault(&m_fractureWidthType, "FractureWidthType", "Type", "", "", ""); CAF_PDM_InitField_Basic(&m_fractureWidth, "FractureWidth", 0.1, "Fracture Width (h)"); CAF_PDM_InitField_Basic(&m_inertialCoefficient, "InertialCoefficient", 0.006083236, "Inertial Coefficient (β)"); CAF_PDM_InitFieldNoDefault(&m_permeabilityType, "PermeabilityType", "Type", "", "", ""); CAF_PDM_InitField_Basic(&m_relativePermeability, "RelativePermeability", 1.0, "Relative Permeability"); CAF_PDM_InitField(&m_userDefinedEffectivePermeability, "EffectivePermeability",0.0, "Effective Permeability (Ke) [mD]", "", "", ""); CAF_PDM_InitField(&m_relativeGasDensity, "RelativeGasDensity", 0.8, "Relative Gas Density (γ)", "", "Relative density of gas at surface conditions with respect to air at STP", ""); CAF_PDM_InitField(&m_gasViscosity, "GasViscosity", 0.02, "Gas Viscosity (μ) [cP]", "", "Gas viscosity at bottom hole pressure", ""); CAF_PDM_InitFieldNoDefault(&m_dFactorDisplayField, "dFactorDisplayField", "D Factor", "", "", ""); m_dFactorDisplayField.registerGetMethod(this, &RimFractureTemplate::dFactor); m_dFactorDisplayField.uiCapability()->setUiEditorTypeName(caf::PdmUiDoubleValueEditor::uiEditorTypeName()); m_dFactorDisplayField.uiCapability()->setUiReadOnly(true); m_dFactorDisplayField.xmlCapability()->disableIO(); CAF_PDM_InitFieldNoDefault(&m_dFactorSummaryText, "dFactorSummaryText", "D Factor Summary", "", "", ""); m_dFactorSummaryText.registerGetMethod(this, &RimFractureTemplate::dFactorSummary); m_dFactorSummaryText.uiCapability()->setUiReadOnly(true); m_dFactorSummaryText.uiCapability()->setUiEditorTypeName(caf::PdmUiTextEditor::uiEditorTypeName()); m_dFactorSummaryText.uiCapability()->setUiLabelPosition(caf::PdmUiItemInfo::LabelPosType::TOP); m_dFactorSummaryText.xmlCapability()->disableIO(); CAF_PDM_InitField(&m_heightScaleFactor, "HeightScaleFactor", 1.0, "Height Scale Factor", "", "", ""); CAF_PDM_InitField(&m_widthScaleFactor, "WidthScaleFactor", 1.0, "Width Scale Factor", "", "", ""); CAF_PDM_InitField(&m_sizeScaleApplyButton, "SizeScaleApplyButton", false, "Apply", "", "", ""); m_sizeScaleApplyButton.xmlCapability()->disableIO(); m_sizeScaleApplyButton.uiCapability()->setUiEditorTypeName(caf::PdmUiPushButtonEditor::uiEditorTypeName()); m_sizeScaleApplyButton.uiCapability()->setUiLabelPosition(caf::PdmUiItemInfo::HIDDEN); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimFractureTemplate::~RimFractureTemplate() { } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::setName(const QString& name) { m_name = name; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::setFractureTemplateUnit(RiaEclipseUnitTools::UnitSystemType unitSystem) { m_fractureTemplateUnit = unitSystem; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimFractureTemplate::name() const { return m_name; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimFractureTemplate::FracOrientationEnum RimFractureTemplate::orientationType() const { return m_orientationType(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RiaEclipseUnitTools::UnitSystemType RimFractureTemplate::fractureTemplateUnit() const { return m_fractureTemplateUnit(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- caf::PdmFieldHandle* RimFractureTemplate::userDescriptionField() { return &m_nameAndUnit; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::fieldChangedByUi(const caf::PdmFieldHandle* changedField, const QVariant& oldValue, const QVariant& newValue) { if (changedField == &m_azimuthAngle || changedField == &m_orientationType) { //Changes to one of these parameters should change all fractures with this fracture template attached. RimProject* proj; this->firstAncestorOrThisOfType(proj); if (proj) { //Regenerate geometry std::vector fractures; proj->descendantsIncludingThisOfType(fractures); for (RimFracture* fracture : fractures) { if (fracture->fractureTemplate() == this) { if (changedField == &m_azimuthAngle && (fabs(oldValue.toDouble() - fracture->m_azimuth()) < 1e-5)) { fracture->m_azimuth = m_azimuthAngle; } if (changedField == &m_orientationType) { if (newValue == AZIMUTH) { fracture->m_azimuth = m_azimuthAngle; } else fracture->updateAzimuthBasedOnWellAzimuthAngle(); } } } proj->createDisplayModelAndRedrawAllViews(); } } if (changedField == &m_perforationLength || changedField == &m_perforationEfficiency || changedField == &m_wellDiameter) { RimProject* proj; this->firstAncestorOrThisOfType(proj); if (!proj) return; std::vector fractures; proj->descendantsIncludingThisOfType(fractures); for (RimFracture* fracture : fractures) { if (fracture->fractureTemplate() == this) { if (changedField == &m_perforationLength && (fabs(oldValue.toDouble() - fracture->m_perforationLength()) < 1e-5)) { fracture->m_perforationLength = m_perforationLength; } if (changedField == &m_perforationEfficiency && (fabs(oldValue.toDouble() - fracture->m_perforationEfficiency()) < 1e-5)) { fracture->m_perforationEfficiency = m_perforationEfficiency; } if (changedField == &m_wellDiameter && (fabs(oldValue.toDouble() - fracture->m_wellDiameter()) < 1e-5)) { fracture->m_wellDiameter = m_wellDiameter; } } } } if (changedField == &m_perforationLength) { RimProject* proj; this->firstAncestorOrThisOfType(proj); if (proj) { proj->createDisplayModelAndRedrawAllViews(); } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::defineUiOrdering(QString uiConfigName, caf::PdmUiOrdering& uiOrdering) { prepareFieldsForUiDisplay(); { auto group = uiOrdering.addNewGroup("Scale Factors"); group->setCollapsedByDefault(false); group->add(&m_heightScaleFactor); group->add(&m_widthScaleFactor); group->add(&m_sizeScaleApplyButton); } auto nonDarcyFlowGroup = uiOrdering.addNewGroup("Non-Darcy Flow"); nonDarcyFlowGroup->add(&m_nonDarcyFlowType); if (m_nonDarcyFlowType == RimFractureTemplate::NON_DARCY_USER_DEFINED) { nonDarcyFlowGroup->add(&m_userDefinedDFactor); } if (m_nonDarcyFlowType == RimFractureTemplate::NON_DARCY_COMPUTED) { nonDarcyFlowGroup->add(&m_inertialCoefficient); { auto group = nonDarcyFlowGroup->addNewGroup("Effective Permeability"); group->add(&m_permeabilityType); group->add(&m_relativePermeability); group->add(&m_userDefinedEffectivePermeability); } { auto group = nonDarcyFlowGroup->addNewGroup("Width"); group->add(&m_fractureWidthType); group->add(&m_fractureWidth); } nonDarcyFlowGroup->add(&m_relativeGasDensity); nonDarcyFlowGroup->add(&m_gasViscosity); nonDarcyFlowGroup->add(&m_dFactorDisplayField); { auto group = nonDarcyFlowGroup->addNewGroup("D Factor Details"); group->setCollapsedByDefault(true); group->add(&m_dFactorSummaryText); } } uiOrdering.add(&m_fractureTemplateUnit); uiOrdering.skipRemainingFields(true); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::defineEditorAttribute(const caf::PdmFieldHandle* field, QString uiConfigName, caf::PdmUiEditorAttribute* attribute) { if (field == &m_perforationEfficiency) { auto myAttr = dynamic_cast(attribute); if (myAttr) { myAttr->m_minimum = 0; myAttr->m_maximum = 1.0; } } if (field == &m_dFactorSummaryText) { auto myAttr = dynamic_cast(attribute); if (myAttr) { myAttr->wrapMode = caf::PdmUiTextEditorAttribute::NoWrap; QFont font("Monospace", 10); myAttr->font = font; myAttr->textMode = caf::PdmUiTextEditorAttribute::HTML; } } if (field == &m_sizeScaleApplyButton) { caf::PdmUiPushButtonEditorAttribute* attrib = dynamic_cast (attribute); if (attrib) { attrib->m_buttonText = "Apply"; } } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QList RimFractureTemplate::calculateValueOptions(const caf::PdmFieldHandle* fieldNeedingOptions, bool* useOptionsOnly) { QList options; if (fieldNeedingOptions == &m_fractureWidthType) { options.push_back(caf::PdmOptionItemInfo(caf::AppEnum::uiText(USER_DEFINED_WIDTH), USER_DEFINED_WIDTH)); auto widthAndCond = widthAndConductivityAtWellPathIntersection(); if (widthAndCond.isValid()) { options.push_back(caf::PdmOptionItemInfo(caf::AppEnum::uiText(WIDTH_FROM_FRACTURE), WIDTH_FROM_FRACTURE)); } else { m_fractureWidthType = USER_DEFINED_WIDTH; } } return options; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::prepareFieldsForUiDisplay() { if (m_fractureTemplateUnit == RiaEclipseUnitTools::UNITS_METRIC) { m_wellDiameter.uiCapability()->setUiName("Well Diameter [m]"); m_perforationLength.uiCapability()->setUiName("Perforation Length [m]"); m_fractureWidth.uiCapability()->setUiName("Fracture Width [m]"); } else if (m_fractureTemplateUnit == RiaEclipseUnitTools::UNITS_FIELD) { m_wellDiameter.uiCapability()->setUiName("Well Diameter [inches]"); m_perforationLength.uiCapability()->setUiName("Perforation Length [ft]"); m_fractureWidth.uiCapability()->setUiName("Fracture Width [ft]"); } if (m_orientationType == RimFractureTemplate::ALONG_WELL_PATH || m_orientationType == RimFractureTemplate::TRANSVERSE_WELL_PATH) { m_azimuthAngle.uiCapability()->setUiHidden(true); } else if (m_orientationType == RimFractureTemplate::AZIMUTH) { m_azimuthAngle.uiCapability()->setUiHidden(false); } if (m_orientationType == RimFractureTemplate::ALONG_WELL_PATH) { m_perforationEfficiency.uiCapability()->setUiHidden(false); m_perforationLength.uiCapability()->setUiHidden(false); } else { m_perforationEfficiency.uiCapability()->setUiHidden(true); m_perforationLength.uiCapability()->setUiHidden(true); } if (m_conductivityType == FINITE_CONDUCTIVITY) { m_wellDiameter.uiCapability()->setUiHidden(false); } else if (m_conductivityType == INFINITE_CONDUCTIVITY) { m_wellDiameter.uiCapability()->setUiHidden(true); } // Non Darcy Flow auto values = widthAndConductivityAtWellPathIntersection(); if (!values.isValid()) { m_fractureWidthType = RimFractureTemplate::USER_DEFINED_WIDTH; } if (m_fractureWidthType == RimFractureTemplate::USER_DEFINED_WIDTH) { m_fractureWidth.uiCapability()->setUiReadOnly(false); } else { m_fractureWidth = values.m_width; m_fractureWidth.uiCapability()->setUiReadOnly(true); } if (m_permeabilityType == RimFractureTemplate::USER_DEFINED_PERMEABILITY) { m_relativePermeability.uiCapability()->setUiHidden(true); m_userDefinedEffectivePermeability.uiCapability()->setUiHidden(false); } else { m_relativePermeability.uiCapability()->setUiHidden(false); m_userDefinedEffectivePermeability.uiCapability()->setUiHidden(true); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimFractureTemplate::dFactorSummary() const { QString text; auto val = dFactor(); text += QString("D-factor : %1").arg(val); text += "
"; text += "
"; auto alpha = RiaDefines::nonDarcyFlowAlpha(m_fractureTemplateUnit()); text += QString("α : %1").arg(alpha); text += "
"; auto beta = m_inertialCoefficient; text += QString("β : %1").arg(beta); text += "
"; double effPerm = effectivePermeability(); text += QString("Ke : %1").arg(effPerm); text += "
"; double gamma = m_relativeGasDensity; text += QString("γ : %1").arg(gamma); text += "
"; auto h = fractureWidth(); text += QString("h : %1").arg(h); text += "
"; auto wellRadius = m_wellDiameter / 2.0; text += QString("rw : %1").arg(wellRadius); text += "
"; auto mu = m_gasViscosity; text += QString("μ : %1").arg(mu); return text; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimFractureTemplate::effectivePermeability() const { if (m_permeabilityType() == RimFractureTemplate::USER_DEFINED_PERMEABILITY) { return m_userDefinedEffectivePermeability; } else { auto values = widthAndConductivityAtWellPathIntersection(); auto fracPermeability = values.m_permeability; return fracPermeability * m_relativePermeability; } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimFractureTemplate::dFactor() const { if (m_nonDarcyFlowType == RimFractureTemplate::NON_DARCY_USER_DEFINED) { return m_userDefinedDFactor; } auto alpha = RiaDefines::nonDarcyFlowAlpha(m_fractureTemplateUnit()); auto beta = m_inertialCoefficient; auto effPerm = effectivePermeability(); auto gamma = m_relativeGasDensity; auto radius = m_wellDiameter / 2.0; auto mu = m_gasViscosity; auto h = fractureWidth(); double numerator = alpha * beta * effPerm * gamma; double denumerator = h * radius * mu; if (denumerator < 1e-10) return HUGE_VAL; return numerator / denumerator; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimFractureTemplate::kh() const { return effectivePermeability() * fractureWidth(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::convertToUnitSystem(RiaEclipseUnitTools::UnitSystem neededUnit) { if (neededUnit == RiaEclipseUnitTools::UNITS_FIELD) { m_perforationLength = RiaEclipseUnitTools::feetToMeter(m_perforationLength); m_wellDiameter = RiaEclipseUnitTools::inchToMeter(m_wellDiameter); m_fractureWidth = RiaEclipseUnitTools::feetToMeter(m_fractureWidth); } else if (neededUnit == RiaEclipseUnitTools::UNITS_METRIC) { m_perforationLength = RiaEclipseUnitTools::meterToFeet(m_perforationLength); m_wellDiameter = RiaEclipseUnitTools::meterToInch(m_wellDiameter); m_fractureWidth = RiaEclipseUnitTools::meterToFeet(m_fractureWidth); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::disconnectAllFracturesAndRedrawViews() const { // The unit has changed. Disconnect all fractures referencing this fracture template to avoid mix of units between fracture // and template std::vector referringObjects; this->objectsWithReferringPtrFields(referringObjects); for (auto objHandle : referringObjects) { RimFracture* fracture = dynamic_cast(objHandle); if (fracture) { fracture->setFractureTemplate(nullptr); } } RimProject* proj; this->firstAncestorOrThisOfType(proj); if (proj) { proj->createDisplayModelAndRedrawAllViews(); } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimFractureTemplate::fractureWidth() const { if (m_fractureWidthType == RimFractureTemplate::WIDTH_FROM_FRACTURE) { auto values = widthAndConductivityAtWellPathIntersection(); return values.m_width; } return m_fractureWidth; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- QString RimFractureTemplate::nameAndUnit() const { QString decoratedName; if (m_fractureTemplateUnit == RiaEclipseUnitTools::UNITS_METRIC) { decoratedName += "[M] - "; } else if (m_fractureTemplateUnit == RiaEclipseUnitTools::UNITS_FIELD) { decoratedName += "[F] - "; } decoratedName += m_name; return decoratedName; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimFractureTemplate::wellDiameter() { return m_wellDiameter; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- double RimFractureTemplate::perforationLength() { return m_perforationLength; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- const RimFractureContainment * RimFractureTemplate::fractureContainment() { return m_fractureContainment(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- RimFractureTemplate::FracConductivityEnum RimFractureTemplate::conductivityType() const { return m_conductivityType(); } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- float RimFractureTemplate::azimuthAngle() const { return m_azimuthAngle; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- float RimFractureTemplate::skinFactor() const { return m_skinFactor; } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- void RimFractureTemplate::setDefaultWellDiameterFromUnit() { if (m_fractureTemplateUnit == RiaEclipseUnitTools::UNITS_FIELD) { m_wellDiameter = 8.5; } else if (m_fractureTemplateUnit == RiaEclipseUnitTools::UNITS_METRIC) { m_wellDiameter = 0.216; } } //-------------------------------------------------------------------------------------------------- /// //-------------------------------------------------------------------------------------------------- bool RimFractureTemplate::isNonDarcyFlowEnabled() const { return m_nonDarcyFlowType() != RimFractureTemplate::NON_DARCY_NONE; }