HeliumFluidProperties Class Reference

Fluid properties for helium [petersen] [harlow]. More...

#include <HeliumFluidProperties.h>

Inheritance diagram for HeliumFluidProperties:

Public Types
typedef DataFileName	DataFileParameterType

Public Member Functions
	HeliumFluidProperties (const InputParameters &parameters)
virtual std::string	fluidName () const override
	Fluid name. More...
virtual Real	p_from_v_e (Real v, Real e) const override
	Pressure from specific volume and specific internal energy. More...
virtual ADReal	p_from_v_e (const ADReal &v, const ADReal &e) const override
	Pressure from specific volume and specific internal energy. More...
virtual void	p_from_v_e (Real v, Real e, Real &p, Real &dp_dv, Real &dp_de) const override
	Pressure and its derivatives from specific volume and specific internal energy. More...
void	p_from_v_e (const ADReal &v, const ADReal &e, ADReal &p, ADReal &dp_dv, ADReal &dp_de) const override
virtual Real	T_from_v_e (Real v, Real e) const override
	Temperature from specific volume and specific internal energy. More...
virtual ADReal	T_from_v_e (const ADReal &v, const ADReal &e) const override
	Temperature from specific volume and specific internal energy. More...
virtual void	T_from_v_e (Real v, Real e, Real &T, Real &dT_dv, Real &dT_de) const override
	Temperature and its derivatives from specific volume and specific internal energy. More...
void	T_from_v_e (const ADReal &v, const ADReal &e, ADReal &T, ADReal &dT_dv, ADReal &dT_de) const override
virtual Real	T_from_p_h (Real p, Real h) const override
	Temperature from pressure and specific enthalpy. More...
virtual ADReal	T_from_p_h (const ADReal &, const ADReal &h) const override
virtual Real	c_from_v_e (Real v, Real e) const override
	Speed of sound from specific volume and specific internal energy. More...
virtual void	c_from_v_e (Real v, Real e, Real &c, Real &dc_dv, Real &dc_de) const override
virtual Real	cp_from_v_e (Real v, Real e) const override
	Isobaric specific heat from specific volume and specific internal energy. More...
void	cp_from_v_e (Real v, Real e, Real &cp, Real &dcp_dv, Real &dcp_de) const override
	Isobaric specific heat from specific volume and specific internal energy. More...
virtual Real	cv_from_v_e (Real v, Real e) const override
	Isochoric specific heat from specific volume and specific internal energy. More...
void	cv_from_v_e (Real v, Real e, Real &cv, Real &dcv_dv, Real &dcv_de) const override
	Isochoric specific heat from specific volume and specific internal energy. More...
virtual Real	mu_from_v_e (Real v, Real e) const override
	Dynamic viscosity from specific volume and specific internal energy. More...
virtual void	mu_from_v_e (Real v, Real e, Real &mu, Real &dmu_dv, Real &dmu_de) const override
	Dynamic viscosity and its derivatives from specific volume and specific internal energy. More...
virtual Real	k_from_v_e (Real v, Real e) const override
	Thermal conductivity from specific volume and specific internal energy. More...
virtual void	k_from_v_e (Real v, Real e, Real &k, Real &dk_dv, Real &dk_de) const override
	Thermal conductivity and its derivatives from specific volume and specific internal energy. More...
virtual Real	beta_from_p_T (Real p, Real T) const override
	Thermal expansion coefficient from pressure and temperature. More...
virtual Real	rho_from_p_T (Real p, Real T) const override
	Density from pressure and temperature. More...
virtual void	rho_from_p_T (Real p, Real T, Real &rho, Real &drho_dp, Real &drho_dT) const override
	Density and its derivatives from pressure and temperature. More...
virtual void	rho_from_p_T (const ADReal &p, const ADReal &T, ADReal &rho, ADReal &drho_dp, ADReal &drho_dT) const override
virtual Real	e_from_p_T (Real p, Real T) const override
	Specific internal energy from pressure and temperature. More...
virtual void	e_from_p_T (Real p, Real T, Real &e, Real &de_dp, Real &de_dT) const override
	Specific internal energy and its derivatives from pressure and temperature. More...
virtual Real	e_from_v_h (Real v, Real h) const override
	Specific internal energy from specific volume and specific enthalpy. More...
virtual void	e_from_v_h (Real v, Real h, Real &e, Real &de_dv, Real &de_dh) const override
	Specific internal energy and its derivatives from specific volume and specific enthalpy. More...
virtual Real	h_from_p_T (Real p, Real T) const override
	Specific enthalpy from pressure and temperature. More...
virtual void	h_from_p_T (Real p, Real T, Real &h, Real &dh_dp, Real &dh_dT) const override
	Specific enthalpy and its derivatives from pressure and temperature. More...
virtual void	h_from_p_T (const ADReal &p, const ADReal &T, ADReal &h, ADReal &dh_dp, ADReal &dh_dT) const override
virtual Real	molarMass () const override
	Molar mass. More...
virtual Real	cp_from_p_T (Real p, Real T) const override
	Isobaric specific heat capacity from pressure and temperature. More...
virtual void	cp_from_p_T (Real p, Real T, Real &cp, Real &dcp_dp, Real &dcp_dT) const override
	Isobaric specific heat capacity and its derivatives from pressure and temperature. More...
virtual Real	cv_from_p_T (Real p, Real T) const override
	Isochoric specific heat capacity from pressure and temperature. More...
virtual void	cv_from_p_T (Real p, Real T, Real &cv, Real &dcv_dp, Real &dcv_dT) const override
	Isochoric specific heat capacity and its derivatives from pressure and temperature. More...
virtual Real	k_from_p_T (Real p, Real T) const override
	Thermal conductivity from pressure and temperature. More...
virtual void	k_from_p_T (Real p, Real T, Real &k, Real &dk_dp, Real &dk_dT) const override
	Thermal conductivity and its derivatives wrt pressure and temperature. More...
virtual Real	mu_from_p_T (Real p, Real T) const override
	Dynamic viscosity from pressure and temperature. More...
virtual void	mu_from_p_T (Real p, Real T, Real &mu, Real &dmu_drho, Real &dmu_dT) const override
	Dynamic viscosity and its derivatives wrt pressure and temperature. More...
Real	e_from_T_v (Real T, Real) const override
void	e_from_T_v (Real T, Real v, Real &e, Real &de_dT, Real &de_dv) const override
ADReal	e_from_T_v (const ADReal &T, const ADReal &v) const override
void	e_from_T_v (const ADReal &T, const ADReal &v, ADReal &e, ADReal &de_dT, ADReal &de_dv) const override
Real	p_from_T_v (Real T, Real v) const override
ADReal	p_from_T_v (const ADReal &T, const ADReal &v) const override
Real	e_from_p_rho (Real p, Real rho) const override
ADReal	e_from_p_rho (const ADReal &p, const ADReal &rho) const override
virtual Real	criticalPressure () const
	Critical pressure. More...
virtual Real	criticalTemperature () const
	Critical temperature. More...
virtual Real	criticalDensity () const
	Critical density. More...
virtual Real	criticalInternalEnergy () const
	Critical specific internal energy. More...
virtual Real	triplePointPressure () const
	Triple point pressure. More...
virtual Real	triplePointTemperature () const
	Triple point temperature. More...
virtual Real	e_spndl_from_v (Real v) const
	Specific internal energy from temperature and specific volume. More...
virtual void	v_e_spndl_from_T (Real T, Real &v, Real &e) const
	Specific internal energy from temperature and specific volume. More...
virtual Real	vaporPressure (Real T) const
	Vapor pressure. More...
virtual void	vaporPressure (Real T, Real &psat, Real &dpsat_dT) const
virtual ADReal	vaporPressure (const ADReal &T) const
virtual Real	vaporTemperature (Real p) const
	Vapor temperature. More...
virtual void	vaporTemperature (Real p, Real &Tsat, Real &dTsat_dp) const
virtual ADReal	vaporTemperature (const ADReal &p) const
virtual std::vector< Real >	henryCoefficients () const
	Henry's law coefficients for dissolution in water. More...
template<typename CppType >
void	v_e_from_p_T (const CppType &p, const CppType &T, CppType &v, CppType &e) const
template<typename CppType >
void	v_e_from_p_T (const CppType &p, const CppType &T, CppType &v, CppType &dv_dp, CppType &dv_dT, CppType &e, CppType &de_dp, CppType &de_dT) const
virtual void	rho_mu_from_p_T (Real p, Real T, Real &rho, Real &mu) const
	Combined methods. More...
virtual void	rho_mu_from_p_T (Real p, Real T, Real &rho, Real &drho_dp, Real &drho_dT, Real &mu, Real &dmu_dp, Real &dmu_dT) const
virtual void	rho_mu_from_p_T (const ADReal &p, const ADReal &T, ADReal &rho, ADReal &mu) const
virtual void	rho_e_from_p_T (Real p, Real T, Real &rho, Real &drho_dp, Real &drho_dT, Real &e, Real &de_dp, Real &de_dT) const
template<typename CppType >
void	p_T_from_v_e (const CppType &v, const CppType &e, Real p0, Real T0, CppType &p, CppType &T, bool &conversion_succeeded) const
	Determines (p,T) from (v,e) using Newton Solve in 2D Useful for conversion between different sets of state variables. More...
template<typename T >
void	p_T_from_v_h (const T &v, const T &h, Real p0, Real T0, T &pressure, T &temperature, bool &conversion_succeeded) const
	Determines (p,T) from (v,h) using Newton Solve in 2D Useful for conversion between different sets of state variables. More...
template<typename T >
void	p_T_from_h_s (const T &h, const T &s, Real p0, Real T0, T &pressure, T &temperature, bool &conversion_succeeded) const
	Determines (p,T) from (h,s) using Newton Solve in 2D Useful for conversion between different sets of state variables. More...
template<>
std::pair< Real, Real >	makeZeroAndOne (const Real &)
virtual void	execute () final
virtual void	initialize () final
virtual void	finalize () final
virtual void	threadJoin (const UserObject &) final
virtual void	subdomainSetup () final
bool	needThreadedCopy () const override final
virtual Real	spatialValue (const Point &) const
virtual const std::vector< Point >	spatialPoints () const
void	setPrimaryThreadCopy (UserObject *primary)
UserObject *	primaryThreadCopy ()
SubProblem &	getSubProblem () const
bool	shouldDuplicateInitialExecution () const
void	gatherSum (T &value)
void	gatherMax (T &value)
void	gatherMin (T &value)
void	gatherProxyValueMax (T1 &proxy, T2 &value)
void	gatherProxyValueMin (T1 &proxy, T2 &value)
std::set< UserObjectName >	getDependObjects () const
const std::set< std::string > &	getRequestedItems () override
const std::set< std::string > &	getSuppliedItems () override
unsigned int	systemNumber () const
virtual bool	enabled () const
std::shared_ptr< MooseObject >	getSharedPtr ()
std::shared_ptr< const MooseObject >	getSharedPtr () const
bool	isKokkosObject () const
MooseApp &	getMooseApp () const
const std::string &	type () const
const std::string &	name () const
std::string	typeAndName () const
MooseObjectParameterName	uniqueParameterName (const std::string &parameter_name) const
MooseObjectName	uniqueName () const
const InputParameters &	parameters () const
const hit::Node *	getHitNode () const
bool	hasBase () const
const std::string &	getBase () const
const T &	getParam (const std::string &name) const
std::vector< std::pair< T1, T2 > >	getParam (const std::string &param1, const std::string &param2) const
const T *	queryParam (const std::string &name) const
const T &	getRenamedParam (const std::string &old_name, const std::string &new_name) const
T	getCheckedPointerParam (const std::string &name, const std::string &error_string="") const
bool	haveParameter (const std::string &name) const
bool	isParamValid (const std::string &name) const
bool	isParamSetByUser (const std::string &name) const
void	connectControllableParams (const std::string &parameter, const std::string &object_type, const std::string &object_name, const std::string &object_parameter) const
void	paramError (const std::string &param, Args... args) const
void	paramWarning (const std::string &param, Args... args) const
void	paramWarning (const std::string &param, Args... args) const
void	paramInfo (const std::string &param, Args... args) const
std::string	messagePrefix (const bool hit_prefix=true) const
std::string	errorPrefix (const std::string &) const
void	mooseError (Args &&... args) const
void	mooseDocumentedError (const std::string &repo_name, const unsigned int issue_num, Args &&... args) const
void	mooseErrorNonPrefixed (Args &&... args) const
void	mooseWarning (Args &&... args) const
void	mooseWarning (Args &&... args) const
void	mooseWarningNonPrefixed (Args &&... args) const
void	mooseWarningNonPrefixed (Args &&... args) const
void	mooseDeprecated (Args &&... args) const
void	mooseDeprecated (Args &&... args) const
void	mooseDeprecatedNoTrace (Args &&... args) const
void	mooseInfo (Args &&... args) const
void	callMooseError (std::string msg, const bool with_prefix, const hit::Node *node=nullptr, const bool show_trace=true) const
std::string	getDataFileName (const std::string &param) const
std::string	getDataFileNameByName (const std::string &relative_path) const
std::string	getDataFilePath (const std::string &relative_path) const
virtual void	initialSetup ()
virtual void	timestepSetup ()
virtual void	jacobianSetup ()
virtual void	residualSetup ()
virtual void	customSetup (const ExecFlagType &)
const ExecFlagEnum &	getExecuteOnEnum () const
UserObjectName	getUserObjectName (const std::string &param_name) const
const T &	getUserObject (const std::string &param_name, bool is_dependency=true) const
const T &	getUserObjectByName (const UserObjectName &object_name, bool is_dependency=true) const
const UserObjectBase &	getUserObjectBase (const std::string &param_name, bool is_dependency=true) const
const UserObjectBase &	getUserObjectBaseByName (const UserObjectName &object_name, bool is_dependency=true) const
const std::vector< MooseVariableScalar *> &	getCoupledMooseScalarVars ()
const std::set< TagID > &	getScalarVariableCoupleableVectorTags () const
const std::set< TagID > &	getScalarVariableCoupleableMatrixTags () const
const GenericMaterialProperty< T, is_ad > &	getGenericMaterialProperty (const std::string &name, MaterialData &material_data, const unsigned int state=0)
const GenericMaterialProperty< T, is_ad > &	getGenericMaterialProperty (const std::string &name, const unsigned int state=0)
const GenericMaterialProperty< T, is_ad > &	getGenericMaterialProperty (const std::string &name, const unsigned int state=0)
const MaterialProperty< T > &	getMaterialProperty (const std::string &name, MaterialData &material_data, const unsigned int state=0)
const MaterialProperty< T > &	getMaterialProperty (const std::string &name, const unsigned int state=0)
const MaterialProperty< T > &	getMaterialProperty (const std::string &name, const unsigned int state=0)
const ADMaterialProperty< T > &	getADMaterialProperty (const std::string &name, MaterialData &material_data)
const ADMaterialProperty< T > &	getADMaterialProperty (const std::string &name)
const ADMaterialProperty< T > &	getADMaterialProperty (const std::string &name)
const MaterialProperty< T > &	getMaterialPropertyOld (const std::string &name, MaterialData &material_data)
const MaterialProperty< T > &	getMaterialPropertyOld (const std::string &name)
const MaterialProperty< T > &	getMaterialPropertyOld (const std::string &name)
const MaterialProperty< T > &	getMaterialPropertyOlder (const std::string &name, MaterialData &material_data)
const MaterialProperty< T > &	getMaterialPropertyOlder (const std::string &name)
const MaterialProperty< T > &	getMaterialPropertyOlder (const std::string &name)
const GenericMaterialProperty< T, is_ad > &	getGenericMaterialPropertyByName (const MaterialPropertyName &name, MaterialData &material_data, const unsigned int state)
const GenericMaterialProperty< T, is_ad > &	getGenericMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0)
const GenericMaterialProperty< T, is_ad > &	getGenericMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0)
const MaterialProperty< T > &	getMaterialPropertyByName (const MaterialPropertyName &name, MaterialData &material_data, const unsigned int state=0)
const MaterialProperty< T > &	getMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0)
const MaterialProperty< T > &	getMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0)
const ADMaterialProperty< T > &	getADMaterialPropertyByName (const MaterialPropertyName &name, MaterialData &material_data)
const ADMaterialProperty< T > &	getADMaterialPropertyByName (const MaterialPropertyName &name)
const ADMaterialProperty< T > &	getADMaterialPropertyByName (const MaterialPropertyName &name)
const MaterialProperty< T > &	getMaterialPropertyOldByName (const MaterialPropertyName &name, MaterialData &material_data)
const MaterialProperty< T > &	getMaterialPropertyOldByName (const MaterialPropertyName &name)
const MaterialProperty< T > &	getMaterialPropertyOldByName (const MaterialPropertyName &name)
const MaterialProperty< T > &	getMaterialPropertyOlderByName (const MaterialPropertyName &name, MaterialData &material_data)
const MaterialProperty< T > &	getMaterialPropertyOlderByName (const MaterialPropertyName &name)
const MaterialProperty< T > &	getMaterialPropertyOlderByName (const MaterialPropertyName &name)
Moose::Kokkos::MaterialProperty< T, dimension >	getKokkosMaterialPropertyByName (const std::string &prop_name_in)
Moose::Kokkos::MaterialProperty< T, dimension >	getKokkosMaterialPropertyOldByName (const std::string &prop_name)
Moose::Kokkos::MaterialProperty< T, dimension >	getKokkosMaterialPropertyOlderByName (const std::string &prop_name)
Moose::Kokkos::MaterialProperty< T, dimension >	getKokkosMaterialProperty (const std::string &name)
Moose::Kokkos::MaterialProperty< T, dimension >	getKokkosMaterialPropertyOld (const std::string &name)
Moose::Kokkos::MaterialProperty< T, dimension >	getKokkosMaterialPropertyOlder (const std::string &name)
std::pair< const MaterialProperty< T > *, std::set< SubdomainID > >	getBlockMaterialProperty (const MaterialPropertyName &name)
std::pair< Moose::Kokkos::MaterialProperty< T, dimension >, std::set< SubdomainID > >	getKokkosBlockMaterialProperty (const MaterialPropertyName &name)
const GenericMaterialProperty< T, is_ad > &	getGenericZeroMaterialProperty (const std::string &name)
const GenericMaterialProperty< T, is_ad > &	getGenericZeroMaterialProperty ()
const GenericMaterialProperty< T, is_ad > &	getGenericZeroMaterialPropertyByName (const std::string &prop_name)
const MaterialProperty< T > &	getZeroMaterialProperty (Ts... args)
std::set< SubdomainID >	getMaterialPropertyBlocks (const std::string &name)
std::vector< SubdomainName >	getMaterialPropertyBlockNames (const std::string &name)
std::set< BoundaryID >	getMaterialPropertyBoundaryIDs (const std::string &name)
std::vector< BoundaryName >	getMaterialPropertyBoundaryNames (const std::string &name)
void	checkBlockAndBoundaryCompatibility (std::shared_ptr< MaterialBase > discrete)
std::unordered_map< SubdomainID, std::vector< MaterialBase *> >	buildRequiredMaterials (bool allow_stateful=true)
void	statefulPropertiesAllowed (bool)
virtual bool	getMaterialPropertyCalled () const
virtual const std::unordered_set< unsigned int > &	getMatPropDependencies () const
virtual void	resolveOptionalProperties ()
const GenericMaterialProperty< T, is_ad > &	getPossiblyConstantGenericMaterialPropertyByName (const MaterialPropertyName &prop_name, MaterialData &material_data, const unsigned int state)
bool	isImplicit ()
Moose::StateArg	determineState () const
bool	hasUserObject (const std::string &param_name) const
bool	hasUserObject (const std::string &param_name) const
bool	hasUserObject (const std::string &param_name) const
bool	hasUserObject (const std::string &param_name) const
bool	hasUserObjectByName (const UserObjectName &object_name) const
bool	hasUserObjectByName (const UserObjectName &object_name) const
bool	hasUserObjectByName (const UserObjectName &object_name) const
bool	hasUserObjectByName (const UserObjectName &object_name) const
const GenericOptionalMaterialProperty< T, is_ad > &	getGenericOptionalMaterialProperty (const std::string &name, const unsigned int state=0)
const GenericOptionalMaterialProperty< T, is_ad > &	getGenericOptionalMaterialProperty (const std::string &name, const unsigned int state=0)
const OptionalMaterialProperty< T > &	getOptionalMaterialProperty (const std::string &name, const unsigned int state=0)
const OptionalMaterialProperty< T > &	getOptionalMaterialProperty (const std::string &name, const unsigned int state=0)
const OptionalADMaterialProperty< T > &	getOptionalADMaterialProperty (const std::string &name)
const OptionalADMaterialProperty< T > &	getOptionalADMaterialProperty (const std::string &name)
const OptionalMaterialProperty< T > &	getOptionalMaterialPropertyOld (const std::string &name)
const OptionalMaterialProperty< T > &	getOptionalMaterialPropertyOld (const std::string &name)
const OptionalMaterialProperty< T > &	getOptionalMaterialPropertyOlder (const std::string &name)
const OptionalMaterialProperty< T > &	getOptionalMaterialPropertyOlder (const std::string &name)
MaterialBase &	getMaterial (const std::string &name)
MaterialBase &	getMaterial (const std::string &name)
MaterialBase &	getMaterialByName (const std::string &name, bool no_warn=false)
MaterialBase &	getMaterialByName (const std::string &name, bool no_warn=false)
bool	hasMaterialProperty (const std::string &name)
bool	hasMaterialProperty (const std::string &name)
bool	hasMaterialPropertyByName (const std::string &name)
bool	hasMaterialPropertyByName (const std::string &name)
bool	hasADMaterialProperty (const std::string &name)
bool	hasADMaterialProperty (const std::string &name)
bool	hasADMaterialPropertyByName (const std::string &name)
bool	hasADMaterialPropertyByName (const std::string &name)
bool	hasKokkosMaterialProperty (const std::string &name)
bool	hasKokkosMaterialProperty (const std::string &name)
bool	hasKokkosMaterialPropertyByName (const std::string &name)
bool	hasKokkosMaterialPropertyByName (const std::string &name)
bool	hasGenericMaterialProperty (const std::string &name)
bool	hasGenericMaterialProperty (const std::string &name)
bool	hasGenericMaterialPropertyByName (const std::string &name)
bool	hasGenericMaterialPropertyByName (const std::string &name)
const Function &	getFunction (const std::string &name) const
const Function &	getFunctionByName (const FunctionName &name) const
bool	hasFunction (const std::string &param_name) const
bool	hasFunctionByName (const FunctionName &name) const
Moose::Kokkos::Function	getKokkosFunction (const std::string &name) const
const T &	getKokkosFunction (const std::string &name) const
Moose::Kokkos::Function	getKokkosFunctionByName (const FunctionName &name) const
const T &	getKokkosFunctionByName (const FunctionName &name) const
bool	hasKokkosFunction (const std::string &param_name) const
bool	hasKokkosFunctionByName (const FunctionName &name) const
bool	isDefaultPostprocessorValue (const std::string &param_name, const unsigned int index=0) const
bool	hasPostprocessor (const std::string &param_name, const unsigned int index=0) const
bool	hasPostprocessorByName (const PostprocessorName &name) const
std::size_t	coupledPostprocessors (const std::string &param_name) const
const PostprocessorName &	getPostprocessorName (const std::string &param_name, const unsigned int index=0) const
const VectorPostprocessorValue &	getVectorPostprocessorValue (const std::string &param_name, const std::string &vector_name) const
const VectorPostprocessorValue &	getVectorPostprocessorValue (const std::string &param_name, const std::string &vector_name, bool needs_broadcast) const
const VectorPostprocessorValue &	getVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name) const
const VectorPostprocessorValue &	getVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name, bool needs_broadcast) const
const VectorPostprocessorValue &	getVectorPostprocessorValueOld (const std::string &param_name, const std::string &vector_name) const
const VectorPostprocessorValue &	getVectorPostprocessorValueOld (const std::string &param_name, const std::string &vector_name, bool needs_broadcast) const
const VectorPostprocessorValue &	getVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name) const
const VectorPostprocessorValue &	getVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name, bool needs_broadcast) const
const ScatterVectorPostprocessorValue &	getScatterVectorPostprocessorValue (const std::string &param_name, const std::string &vector_name) const
const ScatterVectorPostprocessorValue &	getScatterVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name) const
const ScatterVectorPostprocessorValue &	getScatterVectorPostprocessorValueOld (const std::string &param_name, const std::string &vector_name) const
const ScatterVectorPostprocessorValue &	getScatterVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name) const
bool	hasVectorPostprocessor (const std::string &param_name, const std::string &vector_name) const
bool	hasVectorPostprocessor (const std::string &param_name) const
bool	hasVectorPostprocessorByName (const VectorPostprocessorName &name, const std::string &vector_name) const
bool	hasVectorPostprocessorByName (const VectorPostprocessorName &name) const
const VectorPostprocessorName &	getVectorPostprocessorName (const std::string &param_name) const
T &	getSampler (const std::string &name)
Sampler &	getSampler (const std::string &name)
T &	getSamplerByName (const SamplerName &name)
Sampler &	getSamplerByName (const SamplerName &name)
virtual void	meshChanged ()
virtual void	meshDisplaced ()
PerfGraph &	perfGraph ()
const PostprocessorValue &	getPostprocessorValue (const std::string &param_name, const unsigned int index=0) const
const PostprocessorValue &	getPostprocessorValue (const std::string &param_name, const unsigned int index=0) const
const PostprocessorValue &	getPostprocessorValueOld (const std::string &param_name, const unsigned int index=0) const
const PostprocessorValue &	getPostprocessorValueOld (const std::string &param_name, const unsigned int index=0) const
const PostprocessorValue &	getPostprocessorValueOlder (const std::string &param_name, const unsigned int index=0) const
const PostprocessorValue &	getPostprocessorValueOlder (const std::string &param_name, const unsigned int index=0) const
virtual const PostprocessorValue &	getPostprocessorValueByName (const PostprocessorName &name) const
virtual const PostprocessorValue &	getPostprocessorValueByName (const PostprocessorName &name) const
const PostprocessorValue &	getPostprocessorValueOldByName (const PostprocessorName &name) const
const PostprocessorValue &	getPostprocessorValueOldByName (const PostprocessorName &name) const
const PostprocessorValue &	getPostprocessorValueOlderByName (const PostprocessorName &name) const
const PostprocessorValue &	getPostprocessorValueOlderByName (const PostprocessorName &name) const
bool	isVectorPostprocessorDistributed (const std::string &param_name) const
bool	isVectorPostprocessorDistributed (const std::string &param_name) const
bool	isVectorPostprocessorDistributedByName (const VectorPostprocessorName &name) const
bool	isVectorPostprocessorDistributedByName (const VectorPostprocessorName &name) const
const Distribution &	getDistribution (const std::string &name) const
const T &	getDistribution (const std::string &name) const
const Distribution &	getDistribution (const std::string &name) const
const T &	getDistribution (const std::string &name) const
const Distribution &	getDistributionByName (const DistributionName &name) const
const T &	getDistributionByName (const std::string &name) const
const Distribution &	getDistributionByName (const DistributionName &name) const
const T &	getDistributionByName (const std::string &name) const
const Parallel::Communicator &	comm () const
processor_id_type	n_processors () const
processor_id_type	processor_id () const

Static Public Member Functions
static InputParameters	validParams ()
static void	callMooseError (MooseApp *const app, const InputParameters &params, std::string msg, const bool with_prefix, const hit::Node *node, const bool show_trace=true)
static void	sort (typename std::vector< T > &vector)
static void	sortDFS (typename std::vector< T > &vector)
static void	cyclicDependencyError (CyclicDependencyException< T2 > &e, const std::string &header, NameFunc &&name_func)
static void	cyclicDependencyError (CyclicDependencyException< T2 > &e, const std::string &header)

Public Attributes
	usingCombinedWarningSolutionWarnings
const ConsoleStream	_console

Static Public Attributes
static const Real	_R = 8.3144598
	Universal gas constant (J/mol/K) More...
static const std::string	type_param
static const std::string	name_param
static const std::string	unique_name_param
static const std::string	app_param
static const std::string	moose_base_param
static const std::string	kokkos_object_param
static constexpr PropertyValue::id_type	default_property_id
static constexpr PropertyValue::id_type	zero_property_id
static constexpr auto	SYSTEM
static constexpr auto	NAME

Protected Member Functions
virtual void	addPostprocessorDependencyHelper (const PostprocessorName &name) const override
virtual void	addVectorPostprocessorDependencyHelper (const VectorPostprocessorName &name) const override
virtual void	addUserObjectDependencyHelper (const UserObjectBase &uo) const override
void	addReporterDependencyHelper (const ReporterName &reporter_name) override
void	flagInvalidSolutionInternal (const InvalidSolutionID invalid_solution_id) const
InvalidSolutionID	registerInvalidSolutionInternal (const std::string &message, const bool warning) const
const ReporterContextBase &	getReporterContextBaseByName (const ReporterName &reporter_name) const
const ReporterName &	getReporterName (const std::string &param_name) const
T &	declareRestartableData (const std::string &data_name, Args &&... args)
ManagedValue< T >	declareManagedRestartableDataWithContext (const std::string &data_name, void *context, Args &&... args)
const T &	getRestartableData (const std::string &data_name) const
T &	declareRestartableDataWithContext (const std::string &data_name, void *context, Args &&... args)
T &	declareRecoverableData (const std::string &data_name, Args &&... args)
T &	declareRestartableDataWithObjectName (const std::string &data_name, const std::string &object_name, Args &&... args)
T &	declareRestartableDataWithObjectNameWithContext (const std::string &data_name, const std::string &object_name, void *context, Args &&... args)
std::string	restartableName (const std::string &data_name) const
const T &	getMeshProperty (const std::string &data_name, const std::string &prefix)
const T &	getMeshProperty (const std::string &data_name)
bool	hasMeshProperty (const std::string &data_name, const std::string &prefix) const
bool	hasMeshProperty (const std::string &data_name, const std::string &prefix) const
bool	hasMeshProperty (const std::string &data_name) const
bool	hasMeshProperty (const std::string &data_name) const
std::string	meshPropertyName (const std::string &data_name) const
PerfID	registerTimedSection (const std::string &section_name, const unsigned int level) const
PerfID	registerTimedSection (const std::string &section_name, const unsigned int level, const std::string &live_message, const bool print_dots=true) const
std::string	timedSectionName (const std::string &section_name) const
bool	isCoupledScalar (const std::string &var_name, unsigned int i=0) const
unsigned int	coupledScalarComponents (const std::string &var_name) const
unsigned int	coupledScalar (const std::string &var_name, unsigned int comp=0) const
libMesh::Order	coupledScalarOrder (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarValue (const std::string &var_name, unsigned int comp=0) const
const ADVariableValue &	adCoupledScalarValue (const std::string &var_name, unsigned int comp=0) const
const GenericVariableValue< is_ad > &	coupledGenericScalarValue (const std::string &var_name, unsigned int comp=0) const
const GenericVariableValue< false > &	coupledGenericScalarValue (const std::string &var_name, const unsigned int comp) const
const GenericVariableValue< true > &	coupledGenericScalarValue (const std::string &var_name, const unsigned int comp) const
const VariableValue &	coupledVectorTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0) const
const VariableValue &	coupledMatrixTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0) const
const VariableValue &	coupledScalarValueOld (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarValueOlder (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarDot (const std::string &var_name, unsigned int comp=0) const
const ADVariableValue &	adCoupledScalarDot (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarDotDot (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarDotOld (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarDotDotOld (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarDotDu (const std::string &var_name, unsigned int comp=0) const
const VariableValue &	coupledScalarDotDotDu (const std::string &var_name, unsigned int comp=0) const
const MooseVariableScalar *	getScalarVar (const std::string &var_name, unsigned int comp) const
virtual void	checkMaterialProperty (const std::string &name, const unsigned int state)
virtual void	getKokkosMaterialPropertyHook (const std::string &, const unsigned int)
void	markMatPropRequested (const std::string &)
MaterialPropertyName	getMaterialPropertyName (const std::string &name) const
void	checkExecutionStage ()
const T &	getReporterValue (const std::string &param_name, const std::size_t time_index=0)
const T &	getReporterValue (const std::string &param_name, ReporterMode mode, const std::size_t time_index=0)
const T &	getReporterValue (const std::string &param_name, const std::size_t time_index=0)
const T &	getReporterValue (const std::string &param_name, ReporterMode mode, const std::size_t time_index=0)
const T &	getReporterValueByName (const ReporterName &reporter_name, const std::size_t time_index=0)
const T &	getReporterValueByName (const ReporterName &reporter_name, ReporterMode mode, const std::size_t time_index=0)
const T &	getReporterValueByName (const ReporterName &reporter_name, const std::size_t time_index=0)
const T &	getReporterValueByName (const ReporterName &reporter_name, ReporterMode mode, const std::size_t time_index=0)
bool	hasReporterValue (const std::string &param_name) const
bool	hasReporterValue (const std::string &param_name) const
bool	hasReporterValue (const std::string &param_name) const
bool	hasReporterValue (const std::string &param_name) const
bool	hasReporterValueByName (const ReporterName &reporter_name) const
bool	hasReporterValueByName (const ReporterName &reporter_name) const
bool	hasReporterValueByName (const ReporterName &reporter_name) const
bool	hasReporterValueByName (const ReporterName &reporter_name) const
const GenericMaterialProperty< T, is_ad > *	defaultGenericMaterialProperty (const std::string &name)
const GenericMaterialProperty< T, is_ad > *	defaultGenericMaterialProperty (const std::string &name)
const MaterialProperty< T > *	defaultMaterialProperty (const std::string &name)
const MaterialProperty< T > *	defaultMaterialProperty (const std::string &name)
const ADMaterialProperty< T > *	defaultADMaterialProperty (const std::string &name)
const ADMaterialProperty< T > *	defaultADMaterialProperty (const std::string &name)

Static Protected Member Functions
template<typename T , typename Functor >
static void	xyDerivatives (const T x, const T &y, T &z, T &dz_dx, T &dz_dy, const Functor &z_from_x_y)
	Computes the dependent variable z and its derivatives with respect to the independent variables x and y using the simple two parameter z_from_x_y functor. More...
template<typename T >
static std::pair< T, T >	makeZeroAndOne (const T &)
	Given a type example, this method returns zero and unity representations of that type (first and second members of returned pair respectively) More...
static std::string	meshPropertyName (const std::string &data_name, const std::string &prefix)

Protected Attributes
const Real	_cv
	specific heat at constant volume More...
const Real	_cp
	specific heat at constant pressure More...
const Real	_tolerance
	Newton's method may be used to convert between variable sets. More...
const Real	_T_initial_guess
	Initial guess for temperature (or temperature used to compute the initial guess) More...
const Real	_p_initial_guess
	Initial guess for pressure (or pressure used to compute the initial guess) More...
const unsigned int	_max_newton_its
	Maximum number of iterations for the variable conversion newton solves. More...
const bool	_verbose_newton
	Whether to output information about newton solves to console. More...
const Real	_T_c2k
	Conversion of temperature from Celsius to Kelvin. More...
const bool	_allow_imperfect_jacobians
	Flag to set unimplemented Jacobian entries to zero. More...
const Moose::CoordinateSystemType &	_coord_sys
const THREAD_ID	_tid
SubProblem &	_subproblem
FEProblemBase &	_fe_problem
SystemBase &	_sys
Assembly &	_assembly
const bool	_duplicate_initial_execution
std::set< std::string >	_depend_uo
const bool &	_enabled
MooseApp &	_app
Factory &	_factory
ActionFactory &	_action_factory
const std::string &	_type
const std::string &	_name
const InputParameters &	_pars
const ExecFlagEnum &	_execute_enum
const ExecFlagType &	_current_execute_flag
MooseApp &	_restartable_app
const std::string	_restartable_system_name
const THREAD_ID	_restartable_tid
const bool	_restartable_read_only
FEProblemBase &	_mci_feproblem
FEProblemBase &	_mdi_feproblem
MooseApp &	_pg_moose_app
const std::string	_prefix
FEProblemBase &	_sc_fe_problem
const THREAD_ID	_sc_tid
const Real &	_real_zero
const VariableValue &	_scalar_zero
const Point &	_point_zero
const InputParameters &	_mi_params
const std::string	_mi_name
const MooseObjectName	_mi_moose_object_name
FEProblemBase &	_mi_feproblem
SubProblem &	_mi_subproblem
const THREAD_ID	_mi_tid
const bool	_is_kokkos_object
const Moose::MaterialDataType	_material_data_type
MaterialData &	_material_data
bool	_stateful_allowed
bool	_get_material_property_called
std::vector< std::unique_ptr< PropertyValue > >	_default_properties
std::unordered_set< unsigned int >	_material_property_dependencies
const MaterialPropertyName	_get_suffix
const bool	_use_interpolated_state
const InputParameters &	_ti_params
FEProblemBase &	_ti_feproblem
bool	_is_implicit
Real &	_t
const Real &	_t_old
int &	_t_step
Real &	_dt
Real &	_dt_old
bool	_is_transient
const Parallel::Communicator &	_communicator

Static Protected Attributes
static const std::string	_interpolated_old
static const std::string	_interpolated_older
	propfunc (p, v, e) propfunc(T
	Compute a fluid property given for the state defined by two given properties. More...
e	propfunc (c, v, e) propfunc(cp
e e	propfunc (cv, v, e) propfunc(mu
e e e	propfunc (k, v, e) propfuncWithDefault(s
e e e e	propfunc (s, h, p) propfunc(rho
e e e e s	propfunc (e, v, h) propfuncWithDefault(s
e e e e s T	propfunc (pp_sat, p, T) propfunc(mu
e e e e s T T	propfunc (k, rho, T) propfuncWithDefault(c
e e e e s T T T T T	propfunc (rho, p, T) propfunc(e
e e e e s T T T T T rho	propfunc (e, T, v) propfunc(p
e e e e s T T T T T rho v	propfunc (h, T, v) propfunc(s
e e e e s T T T T T rho v v	propfunc (cv, T, v) propfunc(h
e e e e s T T T	propfuncWithDefault (cp, p, T) propfuncWithDefault(cv
e e e e s T T T T	propfuncWithDefault (mu, p, T) propfuncWithDefault(k
e e e e s T T T T T rho v v T	propfuncWithDefault (h, v, e) propfunc(g
e e e e s T T T T T rho v v T e	propfuncWithDefault (p, h, s) propfunc(T
e e e e s T T T T T rho v v T e p	propfuncWithDefault (T, p, h) propfuncWithDefault(beta
e e e e s T T T T T rho v v T e p T	propfuncWithDefault (v, p, T) propfuncWithDefault(e
e e e e s T T T T T rho v v T e p T T	propfuncWithDefault (gamma, v, e) propfuncWithDefault(gamma
	v
e	v
e e	v
e e e	v
e e e e s T T T T T rho v v T	v
e e e e	p
e e e e s	p
e e e e s T T	p
e e e e s T T T	p
e e e e s T T T T	p
e e e e s T T T T T	p
e e e e s T T T T T rho v v	p
e e e e s T T T T T rho v v T e p	p
e e e e s T T T T T rho v v T e p T	p
e e e e s T T T T T rho v v T e p T T	p
e e e e s T	rho
e e e e s T T T T T rho	T
e e e e s T T T T T rho v	T
e e e e s T T T T T rho v v T e	h

Detailed Description

Fluid properties for helium [petersen] [harlow].

Definition at line 17 of file HeliumFluidProperties.h.

Constructor & Destructor Documentation

HeliumFluidProperties()

HeliumFluidProperties::HeliumFluidProperties

(

const InputParameters &

parameters

)

Definition at line 22 of file HeliumFluidProperties.C.

  : SinglePhaseFluidProperties(parameters), _cv(3117.0), _cp(5195.0)
{
}

Member Function Documentation

beta_from_p_T()

Real HeliumFluidProperties::beta_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Thermal expansion coefficient from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)

Returns

thermal expansion coefficient (1/K)

Definition at line 338 of file HeliumFluidProperties.C.

{
  Real rho;
  Real drho_dT;
  Real drho_dp;
  rho_from_p_T(pressure, temperature, rho, drho_dp, drho_dT);

  return -drho_dT / rho;
}

c_from_v_e() [1/2]

Real HeliumFluidProperties::c_from_v_e ( Real  v, Real  e  ) const

overridevirtual

Speed of sound from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

speed of sound (m/s)

Definition at line 229 of file HeliumFluidProperties.C.

{
  Real p = p_from_v_e(v, e);
  Real T = T_from_v_e(v, e);

  Real rho, drho_dp, drho_dT;
  rho_from_p_T(p, T, rho, drho_dp, drho_dT);

  Real c2 = -(p / rho / rho - _cv / drho_dT) / (_cv * drho_dp / drho_dT);
  return std::sqrt(c2);
}

c_from_v_e() [2/2]

void HeliumFluidProperties::c_from_v_e ( Real  v, Real  e, Real &  c, Real &  dc_dv, Real &  dc_de  ) const

overridevirtual

Definition at line 242 of file HeliumFluidProperties.C.

{
  using std::sqrt;

  ADReal myv = v;
  Moose::derivInsert(myv.derivatives(), 0, 1);
  Moose::derivInsert(myv.derivatives(), 1, 0);
  ADReal mye = e;
  Moose::derivInsert(mye.derivatives(), 0, 0);
  Moose::derivInsert(mye.derivatives(), 1, 1);

  auto p = SinglePhaseFluidProperties::p_from_v_e(myv, mye);
  auto T = SinglePhaseFluidProperties::T_from_v_e(myv, mye);

  ADReal rho, drho_dp, drho_dT;
  rho_from_p_T(p, T, rho, drho_dp, drho_dT);

  auto cc = sqrt(-(p / rho / rho - _cv / drho_dT) / (_cv * drho_dp / drho_dT));
  c = cc.value();
  dc_dv = cc.derivatives()[0];
  dc_de = cc.derivatives()[1];
}

cp_from_p_T() [1/2]

Real HeliumFluidProperties::cp_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Isobaric specific heat capacity from pressure and temperature.

Parameters

p	pressure (Pa)
T	temperature (K)

Returns

isobaric specific heat (J/kg/.K)

Definition at line 444 of file HeliumFluidProperties.C.

Referenced by cp_from_p_T().

{
  return _cp;
}

cp_from_p_T() [2/2]

void HeliumFluidProperties::cp_from_p_T ( Real  p, Real  T, Real &  cp, Real &  dcp_dp, Real &  dcp_dT  ) const

overridevirtual

Isobaric specific heat capacity and its derivatives from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)
[out]	cp	isobaric specific heat (J/kg/K)
[out]	dcp_dp	derivative of isobaric specific heat w.r.t. pressure (J/kg/K/Pa)
[out]	dcp_dT	derivative of isobaric specific heat w.r.t. temperature (J/kg/K/K)

Definition at line 450 of file HeliumFluidProperties.C.

{
  cp = cp_from_p_T(pressure, temperature);
  dcp_dp = 0.0;
  dcp_dT = 0.0;
}

cp_from_v_e() [1/2]

Real HeliumFluidProperties::cp_from_v_e ( Real  v, Real  e  ) const

overridevirtual

Isobaric specific heat from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

isobaric specific heat (J/kg.K)

Definition at line 266 of file HeliumFluidProperties.C.

Referenced by cp_from_v_e().

{
  return _cp;
}

cp_from_v_e() [2/2]

void HeliumFluidProperties::cp_from_v_e ( Real  v, Real  e, Real &  cp, Real &  dcp_dv, Real &  dcp_de  ) const

override

Isobaric specific heat from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)
[out]	cp	isobaric specific heat (J/kg.K)
[out]	dcp_dv	derivative of isobaric specific heat w.r.t. specific volume
[out]	dcp_de	derivative of isobaric specific heat w.r.t. specific internal energy

Definition at line 272 of file HeliumFluidProperties.C.

{
  cp = cp_from_v_e(v, e);
  dcp_dv = 0.0;
  dcp_de = 0.0;
}

criticalDensity()

Real SinglePhaseFluidProperties::criticalDensity ( ) const

virtualinherited

Critical density.

Returns

critical density (kg/m^3)

Reimplemented in TabulatedFluidProperties, IdealGasFluidProperties, CaloricallyImperfectGas, CO2FluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, StiffenedGasFluidProperties, MethaneFluidProperties, NaClFluidProperties, and Water97FluidProperties.

Definition at line 314 of file SinglePhaseFluidProperties.C.

Referenced by HelmholtzFluidProperties::c_from_p_T(), HelmholtzFluidProperties::cp_from_p_T(), TabulatedFluidProperties::criticalDensity(), SinglePhaseFluidProperties::criticalInternalEnergy(), HelmholtzFluidProperties::cv_from_p_T(), HelmholtzFluidProperties::e_from_p_T(), HelmholtzFluidProperties::h_from_p_T(), HelmholtzFluidProperties::p_from_rho_T(), HelmholtzFluidProperties::rho_from_p_T(), and HelmholtzFluidProperties::s_from_p_T().

{
  return rho_from_p_T(criticalPressure(), criticalTemperature());
}

criticalInternalEnergy()

Real SinglePhaseFluidProperties::criticalInternalEnergy ( ) const

virtualinherited

Critical specific internal energy.

Returns

specific internal energy (J/kg)

Reimplemented in IdealGasFluidProperties, CaloricallyImperfectGas, and StiffenedGasFluidProperties.

Definition at line 320 of file SinglePhaseFluidProperties.C.

{
  return e_from_p_rho(criticalPressure(), criticalDensity());
}

criticalPressure()

Real SinglePhaseFluidProperties::criticalPressure ( ) const

virtualinherited

Critical pressure.

Returns

critical pressure (Pa)

Reimplemented in TabulatedFluidProperties, CO2FluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, MethaneFluidProperties, TestSinglePhaseFluidProperties, NaClFluidProperties, and Water97FluidProperties.

Definition at line 302 of file SinglePhaseFluidProperties.C.

Referenced by SinglePhaseFluidProperties::criticalDensity(), SinglePhaseFluidProperties::criticalInternalEnergy(), and TabulatedFluidProperties::criticalPressure().

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

criticalTemperature()

Real SinglePhaseFluidProperties::criticalTemperature ( ) const

virtualinherited

Critical temperature.

Returns

critical temperature (K)

Reimplemented in TabulatedFluidProperties, IdealGasFluidProperties, CaloricallyImperfectGas, CO2FluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, StiffenedGasFluidProperties, MethaneFluidProperties, TestSinglePhaseFluidProperties, NaClFluidProperties, and Water97FluidProperties.

Definition at line 308 of file SinglePhaseFluidProperties.C.

Referenced by HelmholtzFluidProperties::c_from_p_T(), HelmholtzFluidProperties::cp_from_p_T(), SinglePhaseFluidProperties::criticalDensity(), TabulatedFluidProperties::criticalTemperature(), HelmholtzFluidProperties::cv_from_p_T(), HelmholtzFluidProperties::e_from_p_T(), HelmholtzFluidProperties::h_from_p_T(), HelmholtzFluidProperties::p_from_rho_T(), HelmholtzFluidProperties::rho_from_p_T(), HelmholtzFluidProperties::s_from_p_T(), and IdealRealGasMixtureFluidProperties::xs_prim_from_p_T().

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

cv_from_p_T() [1/2]

Real HeliumFluidProperties::cv_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Isochoric specific heat capacity from pressure and temperature.

Parameters

p	pressure (Pa)
T	temperature (K)

Returns

isochoric specific heat (J/kg.K)

Definition at line 459 of file HeliumFluidProperties.C.

Referenced by cv_from_p_T().

{
  return _cv;
}

cv_from_p_T() [2/2]

void HeliumFluidProperties::cv_from_p_T ( Real  p, Real  T, Real &  cv, Real &  dcv_dp, Real &  dcv_dT  ) const

overridevirtual

Isochoric specific heat capacity and its derivatives from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)
[out]	cv	isochoric specific heat (J/kg/K)
[out]	dcv_dp	derivative of isochoric specific heat w.r.t. pressure (J/kg/K/Pa)
[out]	dcv_dT	derivative of isochoric specific heat w.r.t. temperature (J/kg/K/K)

Definition at line 465 of file HeliumFluidProperties.C.

{
  cv = cv_from_p_T(pressure, temperature);
  dcv_dp = 0.0;
  dcv_dT = 0.0;
}

cv_from_v_e() [1/2]

Real HeliumFluidProperties::cv_from_v_e ( Real  v, Real  e  ) const

overridevirtual

Isochoric specific heat from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

isochoric specific heat (J/kg.K)

Definition at line 280 of file HeliumFluidProperties.C.

Referenced by cv_from_v_e().

{
  return _cv;
}

cv_from_v_e() [2/2]

void HeliumFluidProperties::cv_from_v_e ( Real  v, Real  e, Real &  cv, Real &  dcv_dv, Real &  dcv_de  ) const

override

Isochoric specific heat from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)
[out]	cv	isochoric specific heat (J/kg.K)
[out]	dcv_dv	derivative of isochoric specific heat w.r.t. specific volume
[out]	dcv_de	derivative of isochoric specific heat w.r.t. specific internal energy

Definition at line 286 of file HeliumFluidProperties.C.

{
  cv = cv_from_v_e(v, e);
  dcv_dv = 0.0;
  dcv_de = 0.0;
}

e_from_p_rho() [1/2]

Real HeliumFluidProperties::e_from_p_rho ( Real  p, Real  rho  ) const

override

Definition at line 34 of file HeliumFluidProperties.C.

{
  // Initial guess using ideal gas law
  Real e = p / (_cp / _cv - 1.) / rho;
  const Real v = 1. / rho;

  Real p_from_props, dp_dv, dp_de;
  const unsigned int max_its = 10;
  unsigned int it = 0;

  do
  {
    p_from_v_e(v, e, p_from_props, dp_dv, dp_de);
    const Real & jacobian = dp_de;
    const Real residual = p_from_props - p;

    if (std::abs(residual) / p < 1e-12)
      break;

    const Real delta_e = -residual / jacobian;
    e += delta_e;
  } while (++it < max_its);

  if (it >= max_its)
    mooseWarning("The e_from_p_rho iteration failed to converge");

  return e;
}

e_from_p_rho() [2/2]

ADReal HeliumFluidProperties::e_from_p_rho ( const ADReal &  p, const ADReal &  rho  ) const

override

Definition at line 64 of file HeliumFluidProperties.C.

{
  // Initial guess using ideal gas law
  ADReal e = p / (_cp / _cv - 1.) / rho;
  const ADReal v = 1. / rho;

  ADReal p_from_props, dp_dv, dp_de;
  const unsigned int max_its = 10;
  unsigned int it = 0;

  do
  {
    p_from_v_e(v, e, p_from_props, dp_dv, dp_de);
    const ADReal & jacobian = dp_de;
    const ADReal residual = p_from_props - p;

    if (std::abs(residual.value()) / p.value() < 1e-12)
      break;

    const ADReal delta_e = -residual / jacobian;
    e += delta_e;
  } while (++it < max_its);

  if (it >= max_its)
    mooseWarning("The e_from_p_rho iteration failed to converge");

  return e;
}

e_from_p_T() [1/2]

Real HeliumFluidProperties::e_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Specific internal energy from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)

Returns

specific internal energy (J/kg)

Definition at line 382 of file HeliumFluidProperties.C.

Referenced by e_from_p_T().

{
  return _cv * temperature;
}

e_from_p_T() [2/2]

void HeliumFluidProperties::e_from_p_T ( Real  p, Real  T, Real &  e, Real &  de_dp, Real &  de_dT  ) const

overridevirtual

Specific internal energy and its derivatives from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)
[out]	e	specific internal energy (J/kg)
[out]	de_dp	derivative of specific internal energy w.r.t. pressure
[out]	de_dT	derivative of specific internal energy w.r.t. temperature

Definition at line 388 of file HeliumFluidProperties.C.

{
  e = e_from_p_T(pressure, temperature);
  de_dp = 0.0;
  de_dT = _cv;
}

e_from_T_v() [1/4]

Real HeliumFluidProperties::e_from_T_v ( Real  T, Real    ) const

override

Definition at line 156 of file HeliumFluidProperties.C.

Referenced by e_from_T_v().

{
  // Formula taken from e_from_p_T method
  return _cv * T;
}

e_from_T_v() [2/4]

void HeliumFluidProperties::e_from_T_v ( Real  T, Real  v, Real &  e, Real &  de_dT, Real &  de_dv  ) const

override

Definition at line 163 of file HeliumFluidProperties.C.

{
  e = e_from_T_v(T, v);
  de_dT = _cv;
  de_dv = 0;
}

e_from_T_v() [3/4]

ADReal HeliumFluidProperties::e_from_T_v ( const ADReal &  T, const ADReal &  v  ) const

override

Definition at line 172 of file HeliumFluidProperties.C.

{
  // Formula taken from e_from_p_T method
  return _cv * T;
}

e_from_T_v() [4/4]

void HeliumFluidProperties::e_from_T_v ( const ADReal &  T, const ADReal &  v, ADReal &  e, ADReal &  de_dT, ADReal &  de_dv  ) const

override

Definition at line 179 of file HeliumFluidProperties.C.

{
  e = e_from_T_v(T, v);
  de_dT = _cv;
  de_dv = 0;
}

e_from_v_h() [1/2]

Real HeliumFluidProperties::e_from_v_h ( Real  v, Real  h  ) const

overridevirtual

Specific internal energy from specific volume and specific enthalpy.

Parameters

[in]	v	specific volume (m^3/kg)
[in]	h	specific enthalpy (J/kg)

Returns

specific internal energy (J/kg)

Definition at line 397 of file HeliumFluidProperties.C.

Referenced by e_from_v_h().

{
  return _cv * (h / _cp);
}

e_from_v_h() [2/2]

void HeliumFluidProperties::e_from_v_h ( Real  v, Real  h, Real &  e, Real &  de_dv, Real &  de_dh  ) const

overridevirtual

Specific internal energy and its derivatives from specific volume and specific enthalpy.

Parameters

[in]	v	specific volume (m^3/kg)
[in]	h	specific enthalpy (J/kg)
[out]	e	specific internal energy (J/kg)
[out]	de_dv	derivative of specific internal energy w.r.t. specific volume
[out]	de_dh	derivative of specific internal energy w.r.t. specific enthalpy

Definition at line 403 of file HeliumFluidProperties.C.

{
  e = e_from_v_h(v, h);
  de_dv = 0.;
  de_dh = _cv / _cp;
}

e_spndl_from_v()

Real SinglePhaseFluidProperties::e_spndl_from_v ( Real  v ) const

virtualinherited

Specific internal energy from temperature and specific volume.

Parameters

[in]	T	temperature
[in]	v	specific volume

Reimplemented in IdealGasFluidProperties, CaloricallyImperfectGas, and StiffenedGasFluidProperties.

Definition at line 483 of file SinglePhaseFluidProperties.C.

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

execute()

virtual void FluidProperties::execute ( )

inlinefinalvirtualinherited

Implements ThreadedGeneralUserObject.

Definition at line 33 of file FluidProperties.h.

{}

finalize()

virtual void FluidProperties::finalize ( )

inlinefinalvirtualinherited

Implements ThreadedGeneralUserObject.

Definition at line 35 of file FluidProperties.h.

{}

fluidName()

std::string HeliumFluidProperties::fluidName ( ) const

overridevirtual

Fluid name.

Returns

"helium"

Reimplemented from SinglePhaseFluidProperties.

Definition at line 28 of file HeliumFluidProperties.C.

{
  return "helium";
}

h_from_p_T() [1/3]

Real HeliumFluidProperties::h_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Specific enthalpy from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)

Returns

specific enthalpy (J/kg)

Definition at line 411 of file HeliumFluidProperties.C.

Referenced by h_from_p_T().

{
  return _cp * temperature;
}

h_from_p_T() [2/3]

void HeliumFluidProperties::h_from_p_T ( Real  p, Real  T, Real &  h, Real &  dh_dp, Real &  dh_dT  ) const

overridevirtual

Specific enthalpy and its derivatives from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)
[out]	h	specific enthalpy (J/kg)
[out]	dh_dp	derivative of specific enthalpy w.r.t. pressure
[out]	dh_dT	derivative of specific enthalpy w.r.t. temperature

Definition at line 417 of file HeliumFluidProperties.C.

{
  h = h_from_p_T(pressure, temperature);
  dh_dp = 0.0;
  dh_dT = _cp;
}

h_from_p_T() [3/3]

void HeliumFluidProperties::h_from_p_T ( const ADReal &  p, const ADReal &  T, ADReal &  h, ADReal &  dh_dp, ADReal &  dh_dT  ) const

overridevirtual

Definition at line 426 of file HeliumFluidProperties.C.

{
  h = _cp * temperature;
  dh_dp = 0.0;
  dh_dT = _cp;
}

henryCoefficients()

std::vector< Real > SinglePhaseFluidProperties::henryCoefficients ( ) const

virtualinherited

Henry's law coefficients for dissolution in water.

Returns

Henry's constant coefficients

Reimplemented in CO2FluidProperties, TabulatedFluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, and MethaneFluidProperties.

Definition at line 378 of file SinglePhaseFluidProperties.C.

Referenced by TabulatedFluidProperties::henryCoefficients().

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

initialize()

virtual void FluidProperties::initialize ( )

inlinefinalvirtualinherited

Implements ThreadedGeneralUserObject.

Definition at line 34 of file FluidProperties.h.

{}

k_from_p_T() [1/2]

Real HeliumFluidProperties::k_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Thermal conductivity from pressure and temperature.

Parameters

p	pressure (Pa)
T	temperature (K)

Returns

thermal conductivity (W/m.K)

Definition at line 489 of file HeliumFluidProperties.C.

Referenced by k_from_p_T().

{
  return 2.682e-3 * (1.0 + 1.123e-8 * pressure) *
         std::pow(temperature, 0.71 * (1.0 - 2.0e-9 * pressure));
}

k_from_p_T() [2/2]

void HeliumFluidProperties::k_from_p_T ( Real  p, Real  T, Real &  k, Real &  dk_dp, Real &  dk_dT  ) const

overridevirtual

Thermal conductivity and its derivatives wrt pressure and temperature.

Parameters

	p	pressure (Pa)
	T	temperature (K)
[out]	k	thermal conductivity (W/m.K)
[out]	dk_dp	derivative of thermal conductivity wrt pressure
[out]	dk_dT	derivative of thermal conductivity wrt temperature

Definition at line 496 of file HeliumFluidProperties.C.

{
  k = k_from_p_T(pressure, temperature);

  Real term = 1.0 + 1.123e-8 * pressure;
  Real exp = 0.71 * (1.0 - 2.0e-9 * pressure);

  dk_dp = 2.682e-3 * (term * 0.71 * (-2.0e-9) * std::log(temperature) * std::pow(temperature, exp) +
                      std::pow(temperature, exp) * 1.123e-8);

  dk_dT = 2.682e-3 * term * exp * std::pow(temperature, exp - 1.0);
}

k_from_v_e() [1/2]

Real HeliumFluidProperties::k_from_v_e ( Real  v, Real  e  ) const

overridevirtual

Thermal conductivity from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

thermal conductivity (W/m.K)

Definition at line 309 of file HeliumFluidProperties.C.

{
  Real p_in_bar = p_from_v_e(v, e) * 1.0e-5;
  Real T = T_from_v_e(v, e);
  return 2.682e-3 * (1.0 + 1.123e-3 * p_in_bar) * std::pow(T, 0.71 * (1.0 - 2.0e-4 * p_in_bar));
}

k_from_v_e() [2/2]

void HeliumFluidProperties::k_from_v_e ( Real  v, Real  e, Real &  k, Real &  dk_dv, Real &  dk_de  ) const

overridevirtual

Thermal conductivity and its derivatives from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)
[out]	k	thermal conductivity (W/m.K)
[out]	dk_dv	derivative of thermal conductivity w.r.t. specific volume
[out]	dk_de	derivative of thermal conductivity w.r.t. specific internal energy

Definition at line 317 of file HeliumFluidProperties.C.

{
  Real T = 0., p = 0., dT_dv = 0., dT_de = 0., dp_dv = 0., dp_de = 0.;
  T_from_v_e(v, e, T, dT_dv, dT_de);
  p_from_v_e(v, e, p, dp_dv, dp_de);

  // b and d scaled by 1e-5 to account for conversion to bar
  constexpr Real a = 2.682e-3;
  constexpr Real b = 1.123e-8;
  constexpr Real c = 0.71;
  constexpr Real d = 2.0e-9;

  k = a * (1.0 + b * p) * std::pow(T, c * (1.0 - d * p));
  Real dk_dT = a * c * (1.0 + b * p) * (1.0 - d * p) * std::pow(T, c * (1.0 - d * p) - 1.0);
  Real dk_dp = a * std::pow(T, c * (1.0 - d * p)) * (b - c * d * (1 + b * p) * std::log(T));

  dk_dv = dk_dp * dp_dv; // dT_dv is zero
  dk_de = dk_dT * dT_de + dk_dp * dp_de;
}

makeZeroAndOne() [1/2]

template<typename T >

std::pair< T, T > SinglePhaseFluidProperties::makeZeroAndOne ( const T &  )

staticprotectedinherited

Given a type example, this method returns zero and unity representations of that type (first and second members of returned pair respectively)

Definition at line 478 of file SinglePhaseFluidProperties.h.

Referenced by SinglePhaseFluidProperties::xyDerivatives().

{
  return {T{0, 0}, T{1, 0}};
}

makeZeroAndOne() [2/2]

template<>

std::pair<Real, Real> SinglePhaseFluidProperties::makeZeroAndOne ( const Real &  )

inlineinherited

Definition at line 485 of file SinglePhaseFluidProperties.h.

{
  return {Real{0}, Real{1}};
}

molarMass()

Real HeliumFluidProperties::molarMass ( ) const

overridevirtual

Molar mass.

Returns

molar mass (kg/mol)

Reimplemented from SinglePhaseFluidProperties.

Definition at line 438 of file HeliumFluidProperties.C.

{
  return 4.002602e-3;
}

mu_from_p_T() [1/2]

Real HeliumFluidProperties::mu_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Dynamic viscosity from pressure and temperature.

Parameters

p	pressure (Pa)
T	temperature (K)

Returns

dynamic viscosity (Pa.s)

Definition at line 474 of file HeliumFluidProperties.C.

Referenced by mu_from_p_T().

{
  return 3.674e-7 * std::pow(temperature, 0.7);
}

mu_from_p_T() [2/2]

void HeliumFluidProperties::mu_from_p_T ( Real  p, Real  T, Real &  mu, Real &  dmu_drho, Real &  dmu_dT  ) const

overridevirtual

Dynamic viscosity and its derivatives wrt pressure and temperature.

Parameters

	p	pressure (Pa)
	T	temperature (K)
[out]	mu	viscosity (Pa.s)
[out]	dmu_dp	derivative of viscosity wrt pressure
[out]	dmu_dT	derivative of viscosity wrt temperature

Definition at line 480 of file HeliumFluidProperties.C.

{
  mu = mu_from_p_T(pressure, temperature);
  dmu_dp = 0.0;
  dmu_dT = 3.674e-7 * 0.7 * std::pow(temperature, -0.3);
}

mu_from_v_e() [1/2]

Real HeliumFluidProperties::mu_from_v_e ( Real  v, Real  e  ) const

overridevirtual

Dynamic viscosity from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

dynamic viscosity (Pa.s)

Definition at line 294 of file HeliumFluidProperties.C.

Referenced by mu_from_v_e().

{
  return 3.674e-7 * std::pow(T_from_v_e(v, e), 0.7);
}

mu_from_v_e() [2/2]

void HeliumFluidProperties::mu_from_v_e ( Real  v, Real  e, Real &  mu, Real &  dmu_dv, Real &  dmu_de  ) const

overridevirtual

Dynamic viscosity and its derivatives from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)
[out]	mu	dynamic viscosity (Pa.s)
[out]	dmu_dv	derivative of dynamic viscosity w.r.t. specific volume
[out]	dmu_de	derivative of dynamic viscosity w.r.t. specific internal energy

Definition at line 300 of file HeliumFluidProperties.C.

{
  mu = mu_from_v_e(v, e);
  const Real dmu_dT = 0.7 * 3.674e-7 * std::pow(T_from_v_e(v, e), -0.3);
  dmu_dv = 0.0;          // dmu_dp = 0, dT_dv is zero
  dmu_de = dmu_dT / _cv; // dmu_dp = 0
}

p_from_T_v() [1/2]

Real HeliumFluidProperties::p_from_T_v ( Real  T, Real  v  ) const

override

Definition at line 141 of file HeliumFluidProperties.C.

{
  // Formula taken from p_from_v_e method
  return T / (48.14 * v - 0.4446 / std::pow(T, 0.2)) * 1.0e5;
}

p_from_T_v() [2/2]

ADReal HeliumFluidProperties::p_from_T_v ( const ADReal &  T, const ADReal &  v  ) const

override

Definition at line 148 of file HeliumFluidProperties.C.

{
  using std::pow;
  // Formula taken from p_from_v_e method
  return T / (48.14 * v - 0.4446 / pow(T, 0.2)) * 1.0e5;
}

p_from_v_e() [1/4]

Real HeliumFluidProperties::p_from_v_e ( Real  v, Real  e  ) const

overridevirtual

Pressure from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

pressure (Pa)

Definition at line 94 of file HeliumFluidProperties.C.

Referenced by c_from_v_e(), e_from_p_rho(), k_from_v_e(), and p_from_v_e().

{
  Real T = T_from_v_e(v, e);
  return T / (48.14 * v - 0.4446 / std::pow(T, 0.2)) * 1.0e5;
}

p_from_v_e() [2/4]

ADReal HeliumFluidProperties::p_from_v_e ( const ADReal &  v, const ADReal &  e  ) const

overridevirtual

Pressure from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

pressure (Pa)

Definition at line 101 of file HeliumFluidProperties.C.

{
  using std::pow;
  const ADReal T = T_from_v_e(v, e);
  return T / (48.14 * v - 0.4446 / pow(T, 0.2)) * 1.0e5;
}

p_from_v_e() [3/4]

void HeliumFluidProperties::p_from_v_e ( Real  v, Real  e, Real &  p, Real &  dp_dv, Real &  dp_de  ) const

overridevirtual

Pressure and its derivatives from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)
[out]	p	pressure (Pa)
[out]	dp_dv	derivative of pressure w.r.t. specific volume
[out]	dp_de	derivative of pressure w.r.t. specific internal energy

Definition at line 109 of file HeliumFluidProperties.C.

{
  p = p_from_v_e(v, e);

  Real T, dT_dv, dT_de;
  T_from_v_e(v, e, T, dT_dv, dT_de);

  Real val = 48.14 * v - 0.4446 / std::pow(T, 0.2);
  Real dp_dT = 1.0e5 / val - 0.4446 * 0.2e5 * std::pow(T, -0.2) / (val * val);

  dp_dv = -48.14e5 * T / (val * val); // taking advantage of dT_dv = 0.0;
  dp_de = dp_dT * dT_de;
}

p_from_v_e() [4/4]

void HeliumFluidProperties::p_from_v_e ( const ADReal &  v, const ADReal &  e, ADReal &  p, ADReal &  dp_dv, ADReal &  dp_de  ) const

override

Definition at line 124 of file HeliumFluidProperties.C.

{
  using std::pow;
  p = p_from_v_e(v, e);

  ADReal T, dT_dv, dT_de;
  T_from_v_e(v, e, T, dT_dv, dT_de);

  auto val = 48.14 * v - 0.4446 / pow(T, 0.2);
  auto dp_dT = 1.0e5 / val - 0.4446 * 0.2e5 * pow(T, -0.2) / (val * val);

  dp_dv = -48.14e5 * T / (val * val); // taking advantage of dT_dv = 0.0;
  dp_de = dp_dT * dT_de;
}

p_T_from_h_s()

template<typename T >

void SinglePhaseFluidProperties::p_T_from_h_s ( const T &  h, const T &  s, Real  p0, Real  T0, T &  pressure, T &  temperature, bool &  conversion_succeeded  ) const

inherited

Determines (p,T) from (h,s) using Newton Solve in 2D Useful for conversion between different sets of state variables.

Parameters

[in]	h	specific enthalpy (J / kg)
[in]	s	specific entropy (J/K*kg)
[in]	p0	initial guess for pressure (Pa / kg)
[in]	T0	initial guess for temperature (K)
[out]	fluid	pressure (Pa / kg)
[out]	Temperature	(K)

Definition at line 599 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedFluidProperties::T_from_h_s().

{
  auto h_lambda = [&](const T & pressure, const T & temperature, T & new_h, T & dh_dp, T & dh_dT)
  { h_from_p_T(pressure, temperature, new_h, dh_dp, dh_dT); };
  auto s_lambda = [&](const T & pressure, const T & temperature, T & new_s, T & ds_dp, T & ds_dT)
  { s_from_p_T(pressure, temperature, new_s, ds_dp, ds_dT); };
  try
  {
    FluidPropertiesUtils::NewtonSolve2D(h,
                                        s,
                                        p0,
                                        T0,
                                        pressure,
                                        temperature,
                                        _tolerance,
                                        _tolerance,
                                        h_lambda,
                                        s_lambda,
                                        "p_T_from_h_s",
                                        _max_newton_its,
                                        _verbose_newton);
    conversion_succeeded = true;
  }
  catch (MooseException &)
  {
    conversion_succeeded = false;
  }

  if (!conversion_succeeded)
    mooseDoOnce(mooseWarning("Conversion from (h, s)=(", h, ", ", s, ") to (p, T) failed"));
}

p_T_from_v_e()

template<typename CppType >

void SinglePhaseFluidProperties::p_T_from_v_e ( const CppType &  v, const CppType &  e, Real  p0, Real  T0, CppType &  p, CppType &  T, bool &  conversion_succeeded  ) const

inherited

Determines (p,T) from (v,e) using Newton Solve in 2D Useful for conversion between different sets of state variables.

Parameters

[in]	v	specific volume (m^3 / kg)
[in]	e	specific internal energy (J / kg)
[in]	p0	initial guess for pressure (Pa / kg)
[in]	T0	initial guess for temperature (K)
[out]	fluid	pressure (Pa / kg)
[out]	Temperature	(K)

Definition at line 513 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedBicubicFluidProperties::constructInterpolation(), TemperaturePressureFunctionFluidProperties::cp_from_v_e(), TemperaturePressureFunctionFluidProperties::cv_from_v_e(), TabulatedFluidProperties::g_from_v_e(), TemperaturePressureFunctionFluidProperties::k_from_v_e(), TemperaturePressureFunctionFluidProperties::mu_from_v_e(), and TemperaturePressureFunctionFluidProperties::T_from_v_e().

{
  auto v_lambda = [&](const CppType & pressure,
                      const CppType & temperature,
                      CppType & new_v,
                      CppType & dv_dp,
                      CppType & dv_dT) { v_from_p_T(pressure, temperature, new_v, dv_dp, dv_dT); };
  auto e_lambda = [&](const CppType & pressure,
                      const CppType & temperature,
                      CppType & new_e,
                      CppType & de_dp,
                      CppType & de_dT) { e_from_p_T(pressure, temperature, new_e, de_dp, de_dT); };
  try
  {
    FluidPropertiesUtils::NewtonSolve2D(v,
                                        e,
                                        p0,
                                        T0,
                                        p,
                                        T,
                                        _tolerance,
                                        _tolerance,
                                        v_lambda,
                                        e_lambda,
                                        "p_T_from_v_e",
                                        _max_newton_its,
                                        _verbose_newton);
    conversion_succeeded = true;
  }
  catch (MooseException &)
  {
    conversion_succeeded = false;
  }

  if (!conversion_succeeded)
    mooseDoOnce(mooseWarning("Conversion from (v, e)=(", v, ", ", e, ") to (p, T) failed"));
}

p_T_from_v_h()

template<typename T >

void SinglePhaseFluidProperties::p_T_from_v_h ( const T &  v, const T &  h, Real  p0, Real  T0, T &  pressure, T &  temperature, bool &  conversion_succeeded  ) const

inherited

Determines (p,T) from (v,h) using Newton Solve in 2D Useful for conversion between different sets of state variables.

Parameters

[in]	v	specific volume (m^3 / kg)
[in]	h	specific enthalpy (J / kg)
[in]	p0	initial guess for pressure (Pa / kg)
[in]	T0	initial guess for temperature (K)
[out]	fluid	pressure (Pa / kg)
[out]	Temperature	(K)

Definition at line 559 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedBicubicFluidProperties::constructInterpolation().

{
  auto v_lambda = [&](const T & pressure, const T & temperature, T & new_v, T & dv_dp, T & dv_dT)
  { v_from_p_T(pressure, temperature, new_v, dv_dp, dv_dT); };
  auto h_lambda = [&](const T & pressure, const T & temperature, T & new_h, T & dh_dp, T & dh_dT)
  { h_from_p_T(pressure, temperature, new_h, dh_dp, dh_dT); };
  try
  {
    FluidPropertiesUtils::NewtonSolve2D(v,
                                        h,
                                        p0,
                                        T0,
                                        pressure,
                                        temperature,
                                        _tolerance,
                                        _tolerance,
                                        v_lambda,
                                        h_lambda,
                                        "p_T_from_v_h",
                                        _max_newton_its,
                                        _verbose_newton);
    conversion_succeeded = true;
  }
  catch (MooseException &)
  {
    conversion_succeeded = false;
  }

  if (!conversion_succeeded)
    mooseDoOnce(mooseWarning("Conversion from (v, h)=(", v, ", ", h, ") to (p, T) failed"));
}

propfunc() [1/12]

SinglePhaseFluidProperties::propfunc ( p  , v  , e    )

inherited

Compute a fluid property given for the state defined by two given properties.

For all functions, the first two arguments are the given properties that define the fluid state. For the two-argument variants, the desired property is the return value. The five-argument variants also provide partial derivatives dx/da and dx/db where x is the desired property being computed, a is the first given property, and b is the second given property. The desired property, dx/da, and dx/db are stored into the 3rd, 4th, and 5th arguments respectively.

Properties/parameters used in these function are listed below with their units:

p pressure [Pa] T temperature [K] e specific internal energy [J/kg] v specific volume [m^3/kg] rho density [kg/m^3] h specific enthalpy [J/kg] s specific entropy [J/(kg*K)] mu viscosity [Pa*s] k thermal conductivity [W/(m*K)] c speed of sound [m/s] cp constant-pressure specific heat [J/K] cv constant-volume specific heat [J/K] beta volumetric thermal expansion coefficient [1/K] g Gibbs free energy [J] pp_sat partial pressure at saturation [Pa] gamma Adiabatic ratio (cp/cv) [-]

As an example:

// calculate pressure given specific vol and energy: auto pressure = your_fluid_properties_object.p_from_v_e(specific_vol, specific_energy);

// or use the derivative variant: Real dp_dv = 0; // derivative will be stored into here Real dp_de = 0; // derivative will be stored into here your_fluid_properties_object.p_from_v_e(specific_vol, specific_energy, pressure, dp_dv, dp_de);

Automatic differentiation (AD) support is provided through x_from_a_b(ADReal a, ADReal b) and x_from_a_b(ADReal a, ADReal b, ADReal x, ADReal dx_da, ADReal dx_db) versions of the functions where a and b must be ADReal/DualNumber's calculated using all AD-supporting values:

auto v = 1/rho; // rho must be an AD non-linear variable. auto e = rhoE/rho - vel_energy; // rhoE and vel_energy must be AD variables/numbers also. auto pressure = your_fluid_properties_object.p_from_v_e(v, e); // pressure now contains partial derivatives w.r.t. all degrees of freedom

propfunc() [2/12]

e SinglePhaseFluidProperties::propfunc ( c  , v  , e    )

inherited

propfunc() [3/12]

e e SinglePhaseFluidProperties::propfunc ( cv  , v  , e    )

inherited

propfunc() [4/12]

e e e SinglePhaseFluidProperties::propfunc ( k  , v  , e    )

inherited

propfunc() [5/12]

e e e e SinglePhaseFluidProperties::propfunc ( s  , h  , p    )

inherited

propfunc() [6/12]

e e e e s SinglePhaseFluidProperties::propfunc ( e  , v  , h    )

inherited

propfunc() [7/12]

e e e e s T SinglePhaseFluidProperties::propfunc ( pp_sat  , p  , T    )

inherited

propfunc() [8/12]

e e e e s T T SinglePhaseFluidProperties::propfunc ( k  , rho  , T    )

inherited

propfunc() [9/12]

e e e e s T T T T T SinglePhaseFluidProperties::propfunc ( rho  , p  , T    )

inherited

propfunc() [10/12]

e e e e s T T T T T rho SinglePhaseFluidProperties::propfunc ( e  , T  , v    )

inherited

propfunc() [11/12]

e e e e s T T T T T rho v SinglePhaseFluidProperties::propfunc ( h  , T  , v    )

inherited

propfunc() [12/12]

e e e e s T T T T T rho v v SinglePhaseFluidProperties::propfunc ( cv  , T  , v    )

inherited

propfuncWithDefault() [1/7]

e e e e s T T T SinglePhaseFluidProperties::propfuncWithDefault ( cp  , p  , T    )

inherited

propfuncWithDefault() [2/7]

e e e e s T T T T SinglePhaseFluidProperties::propfuncWithDefault ( mu  , p  , T    )

inherited

propfuncWithDefault() [3/7]

e e e e s T T T T T rho v v T SinglePhaseFluidProperties::propfuncWithDefault ( h  , v  , e    )

inherited

propfuncWithDefault() [4/7]

e e e e s T T T T T rho v v T e SinglePhaseFluidProperties::propfuncWithDefault ( p  , h  , s    )

inherited

propfuncWithDefault() [5/7]

e e e e s T T T T T rho v v T e p SinglePhaseFluidProperties::propfuncWithDefault ( T  , p  , h    )

inherited

propfuncWithDefault() [6/7]

e e e e s T T T T T rho v v T e p T SinglePhaseFluidProperties::propfuncWithDefault ( v  , p  , T    )

inherited

propfuncWithDefault() [7/7]

e e e e s T T T T T rho v v T e p T T SinglePhaseFluidProperties::propfuncWithDefault ( gamma  , v  , e    )

inherited

rho_e_from_p_T()

void SinglePhaseFluidProperties::rho_e_from_p_T ( Real  p, Real  T, Real &  rho, Real &  drho_dp, Real &  drho_dT, Real &  e, Real &  de_dp, Real &  de_dT  ) const

virtualinherited

Definition at line 438 of file SinglePhaseFluidProperties.C.

{
  rho_from_p_T(p, T, rho, drho_dp, drho_dT);
  e_from_p_T(p, T, e, de_dp, de_dT);
}

rho_from_p_T() [1/3]

Real HeliumFluidProperties::rho_from_p_T ( Real  p, Real  T  ) const

overridevirtual

Density from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)

Returns

density (kg/m$^3$)

Definition at line 349 of file HeliumFluidProperties.C.

Referenced by beta_from_p_T(), c_from_v_e(), and rho_from_p_T().

{
  Real p_in_bar = pressure * 1.0e-5;
  return 48.14 * p_in_bar / (temperature + 0.4446 * p_in_bar / std::pow(temperature, 0.2));
}

rho_from_p_T() [2/3]

void HeliumFluidProperties::rho_from_p_T ( Real  p, Real  T, Real &  rho, Real &  drho_dp, Real &  drho_dT  ) const

overridevirtual

Density and its derivatives from pressure and temperature.

Parameters

[in]	p	pressure (Pa)
[in]	T	temperature (K)
[out]	rho	density (kg/m$^3$)
[out]	drho_dp	derivative of density w.r.t. pressure
[out]	drho_dT	derivative of density w.r.t. temperature

Definition at line 356 of file HeliumFluidProperties.C.

{
  rho = rho_from_p_T(pressure, temperature);
  Real val = 1.0 / (temperature + 0.4446e-5 * pressure / std::pow(temperature, 0.2));
  drho_dp = 48.14e-5 * (val - 0.4446e-5 * pressure * val * val / std::pow(temperature, 0.2));
  drho_dT =
      -48.14e-5 * pressure * val * val * (1.0 - 0.08892e-5 * pressure / std::pow(temperature, 1.2));
}

rho_from_p_T() [3/3]

void HeliumFluidProperties::rho_from_p_T ( const ADReal &  p, const ADReal &  T, ADReal &  rho, ADReal &  drho_dp, ADReal &  drho_dT  ) const

overridevirtual

Definition at line 367 of file HeliumFluidProperties.C.

{
  using std::pow;
  rho = SinglePhaseFluidProperties::rho_from_p_T(pressure, temperature);
  auto val = 1.0 / (temperature + 0.4446e-5 * pressure / pow(temperature, 0.2));
  drho_dp = 48.14e-5 * (val - 0.4446e-5 * pressure * val * val / pow(temperature, 0.2));
  drho_dT =
      -48.14e-5 * pressure * val * val * (1.0 - 0.08892e-5 * pressure / pow(temperature, 1.2));
}

rho_mu_from_p_T() [1/3]

void SinglePhaseFluidProperties::rho_mu_from_p_T ( Real  p, Real  T, Real &  rho, Real &  mu  ) const

virtualinherited

Combined methods.

These methods are particularly useful for the PorousFlow module, where density and viscosity are typically both computed everywhere. The combined methods allow the most efficient means of calculating both properties, especially where rho(p, T) and mu(rho, T). In this case, an extra density calculation would be required to calculate mu(p, T). All property names are described above.

Reimplemented in Water97FluidProperties, CO2FluidProperties, HydrogenFluidProperties, and NitrogenFluidProperties.

Definition at line 452 of file SinglePhaseFluidProperties.C.

Referenced by PorousFlowWaterNCG::gasProperties(), PorousFlowBrineCO2::gasProperties(), and PorousFlowWaterNCG::liquidProperties().

{
  rho = rho_from_p_T(p, T);
  mu = mu_from_p_T(p, T);
}

rho_mu_from_p_T() [2/3]

void SinglePhaseFluidProperties::rho_mu_from_p_T ( Real  p, Real  T, Real &  rho, Real &  drho_dp, Real &  drho_dT, Real &  mu, Real &  dmu_dp, Real &  dmu_dT  ) const

virtualinherited

Reimplemented in Water97FluidProperties, CO2FluidProperties, HydrogenFluidProperties, and NitrogenFluidProperties.

Definition at line 459 of file SinglePhaseFluidProperties.C.

{
  rho_from_p_T(p, T, rho, drho_dp, drho_dT);
  mu_from_p_T(p, T, mu, dmu_dp, dmu_dT);
}

rho_mu_from_p_T() [3/3]

void SinglePhaseFluidProperties::rho_mu_from_p_T ( const ADReal &  p, const ADReal &  T, ADReal &  rho, ADReal &  mu  ) const

virtualinherited

Definition at line 473 of file SinglePhaseFluidProperties.C.

{
  rho = rho_from_p_T(p, T);
  mu = mu_from_p_T(p, T);
}

subdomainSetup()

virtual void FluidProperties::subdomainSetup ( )

inlinefinalvirtualinherited

Reimplemented from ThreadedGeneralUserObject.

Definition at line 38 of file FluidProperties.h.

{}

T_from_p_h() [1/2]

Real HeliumFluidProperties::T_from_p_h ( Real  p, Real  h  ) const

overridevirtual

Temperature from pressure and specific enthalpy.

Parameters

[in]	p	pressure (Pa)
[in]	h	specific enthalpy (J/kg)
[out]	T	temperature (K)

Definition at line 217 of file HeliumFluidProperties.C.

{
  return h / _cp;
}

T_from_p_h() [2/2]

ADReal HeliumFluidProperties::T_from_p_h ( const ADReal &  , const ADReal &  h  ) const

overridevirtual

Definition at line 223 of file HeliumFluidProperties.C.

{
  return h / _cp;
}

T_from_v_e() [1/4]

Real HeliumFluidProperties::T_from_v_e ( Real  v, Real  e  ) const

overridevirtual

Temperature from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

temperature (K)

Definition at line 188 of file HeliumFluidProperties.C.

Referenced by c_from_v_e(), k_from_v_e(), mu_from_v_e(), p_from_v_e(), and T_from_v_e().

{
  return e / _cv;
}

T_from_v_e() [2/4]

ADReal HeliumFluidProperties::T_from_v_e ( const ADReal &  v, const ADReal &  e  ) const

overridevirtual

Temperature from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)

Returns

temperature (K)

Definition at line 194 of file HeliumFluidProperties.C.

{
  return e / _cv;
}

T_from_v_e() [3/4]

void HeliumFluidProperties::T_from_v_e ( Real  v, Real  e, Real &  T, Real &  dT_dv, Real &  dT_de  ) const

overridevirtual

Temperature and its derivatives from specific volume and specific internal energy.

Parameters

[in]	v	specific volume (m$^3$/kg)
[in]	e	specific internal energy (J/kg)
[out]	T	temperature (K)
[out]	dT_dv	derivative of temperature w.r.t. specific volume
[out]	dT_de	derivative of temperature w.r.t. specific internal energy

Definition at line 200 of file HeliumFluidProperties.C.

{
  T = T_from_v_e(v, e);
  dT_dv = 0.0;
  dT_de = 1.0 / _cv;
}

T_from_v_e() [4/4]

void HeliumFluidProperties::T_from_v_e ( const ADReal &  v, const ADReal &  e, ADReal &  T, ADReal &  dT_dv, ADReal &  dT_de  ) const

override

Definition at line 208 of file HeliumFluidProperties.C.

{
  T = SinglePhaseFluidProperties::T_from_v_e(v, e);
  dT_dv = 0.0;
  dT_de = 1.0 / _cv;
}

threadJoin()

virtual void FluidProperties::threadJoin ( const UserObject &  )

inlinefinalvirtualinherited

Reimplemented from ThreadedGeneralUserObject.

Definition at line 37 of file FluidProperties.h.

{}

triplePointPressure()

Real SinglePhaseFluidProperties::triplePointPressure ( ) const

virtualinherited

Triple point pressure.

Returns

triple point pressure (Pa)

Reimplemented in TabulatedFluidProperties, CO2FluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, MethaneFluidProperties, NaClFluidProperties, and Water97FluidProperties.

Definition at line 326 of file SinglePhaseFluidProperties.C.

Referenced by TabulatedFluidProperties::triplePointPressure().

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

triplePointTemperature()

Real SinglePhaseFluidProperties::triplePointTemperature ( ) const

virtualinherited

Triple point temperature.

Returns

triple point temperature (K)

Reimplemented in TabulatedFluidProperties, CO2FluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, MethaneFluidProperties, NaClFluidProperties, and Water97FluidProperties.

Definition at line 332 of file SinglePhaseFluidProperties.C.

Referenced by TabulatedFluidProperties::triplePointTemperature().

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

v_e_from_p_T() [1/2]

template<typename CppType >

void SinglePhaseFluidProperties::v_e_from_p_T ( const CppType &  p, const CppType &  T, CppType &  v, CppType &  e  ) const

inherited

Definition at line 639 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedFluidProperties::h_from_p_T(), and TabulatedFluidProperties::s_from_p_T().

{
  const CppType rho = rho_from_p_T(p, T);
  v = 1.0 / rho;
  try
  {
    // more likely to not involve a Newton search
    e = e_from_p_T(p, T);
  }
  catch (...)
  {
    e = e_from_p_rho(p, rho);
  }
}

v_e_from_p_T() [2/2]

template<typename CppType >

void SinglePhaseFluidProperties::v_e_from_p_T ( const CppType &  p, const CppType &  T, CppType &  v, CppType &  dv_dp, CppType &  dv_dT, CppType &  e, CppType &  de_dp, CppType &  de_dT  ) const

inherited

Definition at line 659 of file SinglePhaseFluidProperties.h.

{
  CppType rho, drho_dp, drho_dT;
  rho_from_p_T(p, T, rho, drho_dp, drho_dT);

  v = 1.0 / rho;
  const CppType dv_drho = -1.0 / (rho * rho);
  dv_dp = dv_drho * drho_dp;
  dv_dT = dv_drho * drho_dT;

  CppType de_dp_partial, de_drho;
  e_from_p_rho(p, rho, e, de_dp_partial, de_drho);
  de_dp = de_dp_partial + de_drho * drho_dp;
  de_dT = de_drho * drho_dT;
}

v_e_spndl_from_T()

void SinglePhaseFluidProperties::v_e_spndl_from_T ( Real  T, Real &  v, Real &  e  ) const

virtualinherited

Specific internal energy from temperature and specific volume.

Parameters

[in]	T	temperature
[in]	v	specific volume

Reimplemented in IdealGasFluidProperties, CaloricallyImperfectGas, and StiffenedGasFluidProperties.

Definition at line 489 of file SinglePhaseFluidProperties.C.

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

validParams()

InputParameters HeliumFluidProperties::validParams ( )

static

Definition at line 15 of file HeliumFluidProperties.C.

{
  InputParameters params = SinglePhaseFluidProperties::validParams();
  params.addClassDescription("Fluid properties for helium");
  return params;
}

vaporPressure() [1/3]

Real SinglePhaseFluidProperties::vaporPressure ( Real  T ) const

virtualinherited

Vapor pressure.

Used to delineate liquid and gas phases. Valid for temperatures between the triple point temperature and the critical temperature

Parameters

	T	fluid temperature (K)
[out]	saturation	pressure (Pa)
[out]	derivative	of saturation pressure wrt temperature (Pa/K)

Reimplemented in Water97FluidProperties, TabulatedFluidProperties, CO2FluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, and MethaneFluidProperties.

Definition at line 372 of file SinglePhaseFluidProperties.C.

Referenced by PorousFlowWaterNCG::equilibriumMassFractions(), PorousFlowWaterNCG::gasDensity(), PorousFlowWaterNCG::gasProperties(), TabulatedFluidProperties::vaporPressure(), BrineFluidProperties::vaporPressure(), and SinglePhaseFluidProperties::vaporPressure().

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

vaporPressure() [2/3]

void SinglePhaseFluidProperties::vaporPressure ( Real  T, Real &  psat, Real &  dpsat_dT  ) const

virtualinherited

Reimplemented in Water97FluidProperties, TabulatedFluidProperties, CO2FluidProperties, HydrogenFluidProperties, NitrogenFluidProperties, and MethaneFluidProperties.

Definition at line 384 of file SinglePhaseFluidProperties.C.

{
  unimplementedDerivativeMethod(__PRETTY_FUNCTION__);

  dp_dT = 0.0;
  p = vaporPressure(T);
}

vaporPressure() [3/3]

ADReal SinglePhaseFluidProperties::vaporPressure ( const ADReal &  T ) const

virtualinherited

Definition at line 393 of file SinglePhaseFluidProperties.C.

{
  Real p = 0.0;
  Real temperature = T.value();
  Real dpdT = 0.0;

  vaporPressure(temperature, p, dpdT);

  ADReal result = p;
  result.derivatives() = T.derivatives() * dpdT;

  return result;
}

vaporTemperature() [1/3]

Real SinglePhaseFluidProperties::vaporTemperature ( Real  p ) const

virtualinherited

Vapor temperature.

Used to delineate liquid and gas phases. Valid for pressures between the triple point pressure and the critical pressure

Parameters

	p	fluid pressure (Pa)
[out]	saturation	temperature (K)
[out]	derivative	of saturation temperature wrt pressure

Reimplemented in Water97FluidProperties, and TabulatedFluidProperties.

Definition at line 408 of file SinglePhaseFluidProperties.C.

Referenced by PorousFlowWaterVapor::thermophysicalProperties(), TabulatedFluidProperties::vaporTemperature(), and SinglePhaseFluidProperties::vaporTemperature().

{
  mooseError(__PRETTY_FUNCTION__, " not implemented.");
}

vaporTemperature() [2/3]

void SinglePhaseFluidProperties::vaporTemperature ( Real  p, Real &  Tsat, Real &  dTsat_dp  ) const

virtualinherited

Reimplemented in Water97FluidProperties, and TabulatedFluidProperties.

Definition at line 414 of file SinglePhaseFluidProperties.C.

{
  unimplementedDerivativeMethod(__PRETTY_FUNCTION__);

  dT_dp = 0.0;
  T = vaporTemperature(p);
}

vaporTemperature() [3/3]

ADReal SinglePhaseFluidProperties::vaporTemperature ( const ADReal &  p ) const

virtualinherited

Definition at line 423 of file SinglePhaseFluidProperties.C.

{
  Real T = 0.0;
  Real pressure = p.value();
  Real dTdp = 0.0;

  vaporTemperature(pressure, T, dTdp);

  ADReal result = T;
  result.derivatives() = p.derivatives() * dTdp;

  return result;
}

xyDerivatives()

template<typename T , typename Functor >

void SinglePhaseFluidProperties::xyDerivatives ( const T  x, const T &  y, T &  z, T &  dz_dx, T &  dz_dy, const Functor &  z_from_x_y  )

staticprotectedinherited

Computes the dependent variable z and its derivatives with respect to the independent variables x and y using the simple two parameter z_from_x_y functor.

The derivatives are computed using a compound automatic differentiation type

Definition at line 492 of file SinglePhaseFluidProperties.h.

Referenced by Water97FluidProperties::e_from_p_rho_template(), Water97FluidProperties::h_from_p_T_template(), Water97FluidProperties::rho_from_p_T_template(), and Water97FluidProperties::v_from_p_T_template().

{
  typedef MetaPhysicL::DualNumber<T, MetaPhysicL::NumberArray<2, T>> CompoundType;
  const auto [zero, one] = makeZeroAndOne(x);

  CompoundType x_c(x, zero);
  auto & x_cd = x_c.derivatives();
  x_cd[0] = one;
  CompoundType y_c(y, zero);
  auto & y_cd = y_c.derivatives();
  y_cd[1] = one;

  const auto z_c = z_from_x_y(x_c, y_c);
  z = z_c.value();
  dz_dx = z_c.derivatives()[0];
  dz_dy = z_c.derivatives()[1];
}

Member Data Documentation

_allow_imperfect_jacobians

const bool FluidProperties::_allow_imperfect_jacobians

protectedinherited

Flag to set unimplemented Jacobian entries to zero.

Definition at line 47 of file FluidProperties.h.

Referenced by VaporMixtureFluidProperties::imperfectJacobianMessage(), Water97FluidProperties::T_from_p_h_ad(), and SinglePhaseFluidProperties::unimplementedDerivativeMethod().

_cp

const Real HeliumFluidProperties::_cp

protected

specific heat at constant pressure

Definition at line 422 of file HeliumFluidProperties.h.

Referenced by cp_from_p_T(), cp_from_v_e(), e_from_p_rho(), e_from_v_h(), h_from_p_T(), and T_from_p_h().

_cv

const Real HeliumFluidProperties::_cv

protected

specific heat at constant volume

Definition at line 419 of file HeliumFluidProperties.h.

Referenced by c_from_v_e(), cv_from_p_T(), cv_from_v_e(), e_from_p_rho(), e_from_p_T(), e_from_T_v(), e_from_v_h(), mu_from_v_e(), and T_from_v_e().

_max_newton_its

const unsigned int SinglePhaseFluidProperties::_max_newton_its

protectedinherited

Maximum number of iterations for the variable conversion newton solves.

Definition at line 449 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedFluidProperties::e_from_p_rho(), TabulatedFluidProperties::e_from_p_T(), TabulatedFluidProperties::e_from_v_h(), SinglePhaseFluidProperties::p_T_from_h_s(), SinglePhaseFluidProperties::p_T_from_v_e(), SinglePhaseFluidProperties::p_T_from_v_h(), TemperaturePressureFunctionFluidProperties::T_from_p_h(), SimpleFluidProperties::T_from_p_h(), TabulatedFluidProperties::T_from_p_h(), NaKFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_s(), and TabulatedFluidProperties::v_from_p_T().

_p_initial_guess

const Real SinglePhaseFluidProperties::_p_initial_guess

protectedinherited

Initial guess for pressure (or pressure used to compute the initial guess)

Definition at line 447 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedFluidProperties::checkInitialGuess(), TabulatedBicubicFluidProperties::constructInterpolation(), TemperaturePressureFunctionFluidProperties::cp_from_v_e(), TemperaturePressureFunctionFluidProperties::cv_from_v_e(), TabulatedFluidProperties::e_from_v_h(), TabulatedFluidProperties::g_from_v_e(), TemperaturePressureFunctionFluidProperties::k_from_v_e(), TemperaturePressureFunctionFluidProperties::mu_from_v_e(), TemperaturePressureFunctionFluidProperties::p_from_v_e(), Water97FluidProperties::p_from_v_e_template(), Water97FluidProperties::p_T_from_v_h(), TabulatedFluidProperties::T_from_h_s(), and TemperaturePressureFunctionFluidProperties::T_from_v_e().

_R

const Real FluidProperties::_R = 8.3144598

staticinherited

Universal gas constant (J/mol/K)

Definition at line 41 of file FluidProperties.h.

Referenced by HelmholtzFluidProperties::c_from_p_T(), IdealGasFluidProperties::c_from_p_T(), MassDiffusionEnergyGasMixDGKernel::computeComponentTotalEnthalpy(), BinaryDiffusionCoefMaterial::computeQpProperties(), HelmholtzFluidProperties::cp_from_p_T(), HelmholtzFluidProperties::cv_from_p_T(), HelmholtzFluidProperties::e_from_p_T(), HelmholtzFluidProperties::h_from_p_T(), LeadLithiumFluidProperties::mu_from_p_T(), LeadLithiumFluidProperties::mu_from_v_e(), HelmholtzFluidProperties::p_from_rho_T(), HelmholtzFluidProperties::rho_from_p_T(), CaloricallyImperfectGas::rho_from_p_T(), IdealGasFluidProperties::rho_from_p_T(), HelmholtzFluidProperties::s_from_p_T(), and TEST_F().

_T_c2k

const Real FluidProperties::_T_c2k

protectedinherited

Conversion of temperature from Celsius to Kelvin.

Definition at line 45 of file FluidProperties.h.

Referenced by NaKFluidProperties::cp_from_p_T(), NaClFluidProperties::cp_from_p_T(), BrineFluidProperties::cp_from_p_T_X(), NaKFluidProperties::h_from_p_T(), NaClFluidProperties::h_from_p_T(), BrineFluidProperties::h_from_p_T_X(), BrineFluidProperties::haliteSolubility(), NaKFluidProperties::k_from_p_T(), NaClFluidProperties::k_from_p_T(), BrineFluidProperties::k_from_p_T_X(), NaKFluidProperties::mu_from_p_T(), BrineFluidProperties::mu_from_p_T_X(), CO2FluidProperties::partialDensity(), NaKFluidProperties::rho_from_p_T(), NaClFluidProperties::rho_from_p_T(), BrineFluidProperties::rho_from_p_T_X(), and NaKFluidProperties::T_from_p_h().

_T_initial_guess

const Real SinglePhaseFluidProperties::_T_initial_guess

protectedinherited

Initial guess for temperature (or temperature used to compute the initial guess)

Definition at line 445 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedFluidProperties::checkInitialGuess(), TabulatedBicubicFluidProperties::constructInterpolation(), TemperaturePressureFunctionFluidProperties::cp_from_v_e(), TemperaturePressureFunctionFluidProperties::cv_from_v_e(), TabulatedFluidProperties::e_from_p_rho(), TabulatedFluidProperties::g_from_v_e(), TemperaturePressureFunctionFluidProperties::k_from_v_e(), TemperaturePressureFunctionFluidProperties::mu_from_v_e(), Water97FluidProperties::p_T_from_v_h(), Water97FluidProperties::T_drhodT_from_p_rho(), TabulatedFluidProperties::T_from_h_s(), HelmholtzFluidProperties::T_from_p_h(), TemperaturePressureFunctionFluidProperties::T_from_p_h(), TabulatedFluidProperties::T_from_p_h(), NaKFluidProperties::T_from_p_rho(), TemperaturePressureFunctionFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_s(), and TemperaturePressureFunctionFluidProperties::T_from_v_e().

_tolerance

const Real SinglePhaseFluidProperties::_tolerance

protectedinherited

Newton's method may be used to convert between variable sets.

Relative tolerance of the solves

Definition at line 443 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedFluidProperties::e_from_p_rho(), TabulatedFluidProperties::e_from_p_T(), TabulatedFluidProperties::e_from_v_h(), TemperaturePressureFunctionFluidProperties::p_from_v_e(), Water97FluidProperties::p_from_v_e_template(), SinglePhaseFluidProperties::p_T_from_h_s(), SinglePhaseFluidProperties::p_T_from_v_e(), SinglePhaseFluidProperties::p_T_from_v_h(), Water97FluidProperties::T_drhodT_from_p_rho(), HelmholtzFluidProperties::T_from_p_h(), TemperaturePressureFunctionFluidProperties::T_from_p_h(), SimpleFluidProperties::T_from_p_h(), TabulatedFluidProperties::T_from_p_h(), NaKFluidProperties::T_from_p_rho(), TemperaturePressureFunctionFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_s(), and TabulatedFluidProperties::v_from_p_T().

_verbose_newton

const bool SinglePhaseFluidProperties::_verbose_newton

protectedinherited

Whether to output information about newton solves to console.

Definition at line 451 of file SinglePhaseFluidProperties.h.

Referenced by TabulatedFluidProperties::e_from_p_rho(), TabulatedFluidProperties::e_from_p_T(), TabulatedFluidProperties::e_from_v_h(), SinglePhaseFluidProperties::p_T_from_h_s(), SinglePhaseFluidProperties::p_T_from_v_e(), SinglePhaseFluidProperties::p_T_from_v_h(), TabulatedFluidProperties::T_from_p_h(), TabulatedFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_s(), and TabulatedFluidProperties::v_from_p_T().

h

e e e e s T T T T T rho v v T e SinglePhaseFluidProperties::h

inherited

Definition at line 212 of file SinglePhaseFluidProperties.h.

Referenced by SodiumSaturationFluidProperties::e_from_p_T(), NaKFluidProperties::e_from_p_T(), NaClFluidProperties::e_from_p_T(), LeadBismuthFluidProperties::e_from_p_T(), LeadLithiumFluidProperties::e_from_p_T(), LeadFluidProperties::e_from_p_T(), TemperaturePressureFunctionFluidProperties::e_from_p_T(), LinearFluidProperties::e_from_v_h(), CaloricallyImperfectGas::e_from_v_h(), StiffenedGasFluidProperties::e_from_v_h(), IdealGasFluidProperties::e_from_v_h(), Water97FluidProperties::e_from_v_h(), SimpleFluidProperties::e_from_v_h(), TabulatedFluidProperties::e_from_v_h(), e_from_v_h(), TabulatedFluidProperties::g_from_v_e(), SodiumSaturationFluidProperties::h_from_p_T(), HelmholtzFluidProperties::h_from_p_T(), LinearFluidProperties::h_from_p_T(), StiffenedGasFluidProperties::h_from_p_T(), NaKFluidProperties::h_from_p_T(), LeadLithiumFluidProperties::h_from_p_T(), LeadBismuthFluidProperties::h_from_p_T(), LeadFluidProperties::h_from_p_T(), CaloricallyImperfectGas::h_from_p_T(), NaClFluidProperties::h_from_p_T(), TabulatedFluidProperties::h_from_p_T(), IdealGasFluidProperties::h_from_p_T(), SimpleFluidProperties::h_from_p_T(), TemperaturePressureFunctionFluidProperties::h_from_p_T(), Water97FluidProperties::h_from_p_T(), FlibeFluidProperties::h_from_p_T(), FlinakFluidProperties::h_from_p_T(), h_from_p_T(), Water97FluidProperties::h_from_p_T_template(), StiffenedGasFluidProperties::h_from_T_v(), CaloricallyImperfectGas::h_from_T_v(), IdealGasFluidProperties::h_from_T_v(), LeadLithiumFluidProperties::h_from_v_e(), LeadBismuthFluidProperties::h_from_v_e(), LeadFluidProperties::h_from_v_e(), StiffenedGasFluidProperties::p_from_h_s(), CaloricallyImperfectGas::p_from_h_s(), IdealGasFluidProperties::p_from_h_s(), LeadBismuthFluidProperties::p_from_v_e(), LeadLithiumFluidProperties::p_from_v_e(), LeadFluidProperties::p_from_v_e(), SimpleFluidProperties::p_from_v_h(), SinglePhaseFluidProperties::p_T_from_h_s(), SinglePhaseFluidProperties::p_T_from_v_h(), Water97FluidProperties::p_T_from_v_h(), StiffenedGasFluidProperties::s_from_h_p(), CaloricallyImperfectGas::s_from_h_p(), IdealGasFluidProperties::s_from_h_p(), TabulatedFluidProperties::s_from_h_p(), Water97FluidProperties::s_from_h_p(), CaloricallyImperfectGas::T_from_h(), TabulatedFluidProperties::T_from_h_s(), LeadBismuthFluidProperties::T_from_p_h(), LeadLithiumFluidProperties::T_from_p_h(), LeadFluidProperties::T_from_p_h(), TemperaturePressureFunctionFluidProperties::T_from_p_h(), CaloricallyImperfectGas::T_from_p_h(), FlibeFluidProperties::T_from_p_h(), FlinakFluidProperties::T_from_p_h(), T_from_p_h(), IdealGasFluidProperties::T_from_p_h(), SimpleFluidProperties::T_from_p_h(), Water97FluidProperties::T_from_p_h(), and SimpleFluidProperties::T_from_v_h().

p [1/10]

e e e e SinglePhaseFluidProperties::p

inherited

Definition at line 190 of file SinglePhaseFluidProperties.h.

Referenced by LinearFluidProperties::beta_from_p_T(), CaloricallyImperfectGas::c_from_p_T(), Water97FluidProperties::c_from_p_T(), StiffenedGasFluidProperties::c_from_v_e(), c_from_v_e(), Water97FluidProperties::c_from_v_e(), TabulatedFluidProperties::c_from_v_e(), LeadBismuthFluidProperties::cp_from_p_T(), LeadLithiumFluidProperties::cp_from_p_T(), LeadFluidProperties::cp_from_p_T(), IdealGasFluidProperties::cp_from_p_T(), TemperaturePressureFunctionFluidProperties::cp_from_p_T(), TemperaturePressureFunctionFluidProperties::cp_from_v_e(), Water97FluidProperties::cp_from_v_e(), TabulatedFluidProperties::cp_from_v_e(), LeadFluidProperties::cv_from_p_T(), LeadLithiumFluidProperties::cv_from_p_T(), LeadBismuthFluidProperties::cv_from_p_T(), IdealGasFluidProperties::cv_from_p_T(), LeadLithiumFluidProperties::cv_from_v_e(), LeadBismuthFluidProperties::cv_from_v_e(), LeadFluidProperties::cv_from_v_e(), TemperaturePressureFunctionFluidProperties::cv_from_v_e(), Water97FluidProperties::cv_from_v_e(), TabulatedFluidProperties::cv_from_v_e(), TestSinglePhaseFluidProperties::e_from_p_rho(), LinearTestFluidProperties::e_from_p_rho(), LinearFluidProperties::e_from_p_rho(), LeadLithiumFluidProperties::e_from_p_rho(), LeadBismuthFluidProperties::e_from_p_rho(), IdealGasFluidProperties::e_from_p_rho(), LeadFluidProperties::e_from_p_rho(), Water97FluidProperties::e_from_p_rho(), SimpleFluidProperties::e_from_p_rho(), TemperaturePressureFunctionFluidProperties::e_from_p_rho(), FlibeFluidProperties::e_from_p_rho(), FlinakFluidProperties::e_from_p_rho(), e_from_p_rho(), Water97FluidProperties::e_from_p_rho_template(), LinearFluidProperties::e_from_p_T(), StiffenedGasFluidProperties::e_from_p_T(), LeadLithiumFluidProperties::e_from_p_T(), LeadBismuthFluidProperties::e_from_p_T(), LeadFluidProperties::e_from_p_T(), CaloricallyImperfectGas::e_from_p_T(), IdealGasFluidProperties::e_from_p_T(), Water97FluidProperties::e_from_v_h(), SimpleFluidProperties::e_from_v_h(), TabulatedFluidProperties::e_from_v_h(), StiffenedGasFluidProperties::g_from_v_e(), CaloricallyImperfectGas::g_from_v_e(), IdealGasFluidProperties::g_from_v_e(), TabulatedFluidProperties::g_from_v_e(), CaloricallyImperfectGas::gamma_from_p_T(), TabulatedFluidProperties::generateTabulatedData(), LinearFluidProperties::h_from_p_T(), StiffenedGasFluidProperties::h_from_p_T(), LeadLithiumFluidProperties::h_from_p_T(), LeadBismuthFluidProperties::h_from_p_T(), LeadFluidProperties::h_from_p_T(), CaloricallyImperfectGas::h_from_p_T(), IdealGasFluidProperties::h_from_p_T(), Water97FluidProperties::henryConstant(), LeadBismuthFluidProperties::k_from_p_T(), LeadLithiumFluidProperties::k_from_p_T(), LeadFluidProperties::k_from_p_T(), CaloricallyImperfectGas::k_from_p_T(), IdealGasFluidProperties::k_from_p_T(), CaloricallyImperfectGas::k_from_v_e(), TemperaturePressureFunctionFluidProperties::k_from_v_e(), TabulatedFluidProperties::k_from_v_e(), k_from_v_e(), Water97FluidProperties::k_from_v_e_template(), LeadBismuthFluidProperties::mu_from_p_T(), LeadLithiumFluidProperties::mu_from_p_T(), LeadFluidProperties::mu_from_p_T(), CaloricallyImperfectGas::mu_from_v_e(), TemperaturePressureFunctionFluidProperties::mu_from_v_e(), TabulatedFluidProperties::mu_from_v_e(), StiffenedGasFluidProperties::p_from_h_s(), CaloricallyImperfectGas::p_from_h_s(), IdealGasFluidProperties::p_from_h_s(), StiffenedGasFluidProperties::p_from_T_v(), CaloricallyImperfectGas::p_from_T_v(), IdealGasFluidProperties::p_from_T_v(), LinearFluidProperties::p_from_v_e(), LeadFluidProperties::p_from_v_e(), LeadLithiumFluidProperties::p_from_v_e(), LeadBismuthFluidProperties::p_from_v_e(), LinearTestFluidProperties::p_from_v_e(), CaloricallyImperfectGas::p_from_v_e(), IdealGasFluidProperties::p_from_v_e(), FlibeFluidProperties::p_from_v_e(), FlinakFluidProperties::p_from_v_e(), p_from_v_e(), TemperaturePressureFunctionFluidProperties::p_from_v_e(), SimpleFluidProperties::p_from_v_e(), TabulatedFluidProperties::p_from_v_e(), Water97FluidProperties::p_from_v_e_template(), SimpleFluidProperties::p_from_v_h(), SinglePhaseFluidProperties::p_T_from_v_e(), Water97FluidProperties::p_T_from_v_e(), SinglePhaseFluidProperties::rho_e_from_p_T(), StiffenedGasFluidProperties::rho_from_p_s(), TabulatedFluidProperties::rho_from_p_s(), CaloricallyImperfectGas::rho_from_p_s(), IdealGasFluidProperties::rho_from_p_s(), TestSinglePhaseFluidProperties::rho_from_p_T(), LinearTestFluidProperties::rho_from_p_T(), TabulatedFluidProperties::rho_from_p_T(), LinearFluidProperties::rho_from_p_T(), CaloricallyImperfectGas::rho_from_p_T(), LeadLithiumFluidProperties::rho_from_p_T(), LeadBismuthFluidProperties::rho_from_p_T(), LeadFluidProperties::rho_from_p_T(), IdealGasFluidProperties::rho_from_p_T(), SinglePhaseFluidProperties::rho_mu_from_p_T(), Water97FluidProperties::rho_T_from_v_e(), StiffenedGasFluidProperties::s_from_h_p(), CaloricallyImperfectGas::s_from_h_p(), IdealGasFluidProperties::s_from_h_p(), Water97FluidProperties::s_from_h_p(), CaloricallyImperfectGas::s_from_p_T(), IdealGasFluidProperties::s_from_p_T(), TabulatedFluidProperties::s_from_p_T(), CaloricallyImperfectGas::s_from_T_v(), IdealGasFluidProperties::s_from_T_v(), IdealGasFluidProperties::s_from_v_e(), TabulatedFluidProperties::s_from_v_e(), Water97FluidProperties::T_drhodT_from_p_rho(), TabulatedFluidProperties::T_from_h_s(), LeadBismuthFluidProperties::T_from_p_h(), LeadLithiumFluidProperties::T_from_p_h(), LeadFluidProperties::T_from_p_h(), TemperaturePressureFunctionFluidProperties::T_from_p_h(), CaloricallyImperfectGas::T_from_p_h(), SimpleFluidProperties::T_from_p_h(), Water97FluidProperties::T_from_p_h(), NaKFluidProperties::T_from_p_rho(), LeadBismuthFluidProperties::T_from_p_rho(), LeadLithiumFluidProperties::T_from_p_rho(), LeadFluidProperties::T_from_p_rho(), TemperaturePressureFunctionFluidProperties::T_from_p_rho(), FlibeFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_rho(), FlinakFluidProperties::T_from_p_rho(), SimpleFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_s(), TemperaturePressureFunctionFluidProperties::T_from_v_e(), FlibeFluidProperties::T_from_v_e(), FlinakFluidProperties::T_from_v_e(), SinglePhaseFluidProperties::v_e_from_p_T(), LeadLithiumFluidProperties::v_from_p_T(), LeadBismuthFluidProperties::v_from_p_T(), LeadFluidProperties::v_from_p_T(), Water97FluidProperties::vaporPressure(), SinglePhaseFluidProperties::vaporPressure(), Water97FluidProperties::vaporTemperature(), SinglePhaseFluidProperties::vaporTemperature(), and TabulatedFluidProperties::writeTabulatedData().

p [2/10]

e e e e s SinglePhaseFluidProperties::p

inherited

Definition at line 192 of file SinglePhaseFluidProperties.h.

p [3/10]

e e e e s T T SinglePhaseFluidProperties::p

inherited

Definition at line 196 of file SinglePhaseFluidProperties.h.

p [4/10]

e e e e s T T T SinglePhaseFluidProperties::p

inherited

Definition at line 198 of file SinglePhaseFluidProperties.h.

p [5/10]

e e e e s T T T T SinglePhaseFluidProperties::p

inherited

Definition at line 200 of file SinglePhaseFluidProperties.h.

p [6/10]

e e e e s T T T T T SinglePhaseFluidProperties::p

inherited

Definition at line 202 of file SinglePhaseFluidProperties.h.

p [7/10]

e e e e s T T T T T rho v v SinglePhaseFluidProperties::p

inherited

Definition at line 208 of file SinglePhaseFluidProperties.h.

p [8/10]

e e e e s T T T T T rho v v T e p SinglePhaseFluidProperties::p

inherited

Definition at line 214 of file SinglePhaseFluidProperties.h.

p [9/10]

e e e e s T T T T T rho v v T e p T SinglePhaseFluidProperties::p

inherited

Definition at line 216 of file SinglePhaseFluidProperties.h.

p [10/10]

e e e e s T T T T T rho v v T e p T T SinglePhaseFluidProperties::p

inherited

Definition at line 218 of file SinglePhaseFluidProperties.h.

rho

e e e e s T SinglePhaseFluidProperties::rho

inherited

Definition at line 194 of file SinglePhaseFluidProperties.h.

Referenced by beta_from_p_T(), TemperaturePressureFunctionFluidProperties::beta_from_p_T(), FlinakFluidProperties::beta_from_p_T(), StiffenedGasFluidProperties::c2_from_p_rho(), c_from_v_e(), TemperaturePressureFunctionFluidProperties::cp_from_p_T(), LeadFluidProperties::cv_from_p_T(), LeadLithiumFluidProperties::cv_from_p_T(), LeadBismuthFluidProperties::cv_from_p_T(), TemperaturePressureFunctionFluidProperties::cv_from_p_T(), TestSinglePhaseFluidProperties::e_from_p_rho(), LinearTestFluidProperties::e_from_p_rho(), LinearFluidProperties::e_from_p_rho(), TabulatedFluidProperties::e_from_p_rho(), LeadBismuthFluidProperties::e_from_p_rho(), LeadLithiumFluidProperties::e_from_p_rho(), IdealGasFluidProperties::e_from_p_rho(), LeadFluidProperties::e_from_p_rho(), Water97FluidProperties::e_from_p_rho(), SimpleFluidProperties::e_from_p_rho(), TemperaturePressureFunctionFluidProperties::e_from_p_rho(), FlibeFluidProperties::e_from_p_rho(), FlinakFluidProperties::e_from_p_rho(), e_from_p_rho(), Water97FluidProperties::e_from_p_rho_template(), NaKFluidProperties::e_from_p_T(), LinearFluidProperties::e_from_p_T(), TabulatedFluidProperties::e_from_p_T(), NaClFluidProperties::e_from_p_T(), SalineMoltenSaltFluidProperties::e_from_p_T(), LinearFluidProperties::h_from_p_T(), TemperaturePressureFunctionFluidProperties::h_from_p_T(), Water97FluidProperties::k_from_p_T_template(), CO2FluidProperties::mu_from_p_T(), NitrogenFluidProperties::mu_from_p_T(), NaKFluidProperties::mu_from_p_T(), HydrogenFluidProperties::mu_from_p_T(), Water97FluidProperties::mu_from_p_T(), Water97FluidProperties::mu_from_p_T_template(), Water97FluidProperties::mu_from_v_e(), Water97FluidProperties::p_from_v_e_template(), Water97FluidProperties::p_T_from_v_e(), SinglePhaseFluidProperties::rho_e_from_p_T(), StiffenedGasFluidProperties::rho_from_p_s(), TabulatedFluidProperties::rho_from_p_s(), IdealGasFluidProperties::rho_from_p_s(), TestSinglePhaseFluidProperties::rho_from_p_T(), LinearTestFluidProperties::rho_from_p_T(), SodiumSaturationFluidProperties::rho_from_p_T(), PBSodiumFluidProperties::rho_from_p_T(), HelmholtzFluidProperties::rho_from_p_T(), NaKFluidProperties::rho_from_p_T(), TabulatedFluidProperties::rho_from_p_T(), LinearFluidProperties::rho_from_p_T(), CO2FluidProperties::rho_from_p_T(), NaClFluidProperties::rho_from_p_T(), LeadBismuthFluidProperties::rho_from_p_T(), LeadLithiumFluidProperties::rho_from_p_T(), CaloricallyImperfectGas::rho_from_p_T(), SalineMoltenSaltFluidProperties::rho_from_p_T(), LeadFluidProperties::rho_from_p_T(), IdealGasFluidProperties::rho_from_p_T(), Water97FluidProperties::rho_from_p_T(), SimpleFluidProperties::rho_from_p_T(), TemperaturePressureFunctionFluidProperties::rho_from_p_T(), FlibeFluidProperties::rho_from_p_T(), FlinakFluidProperties::rho_from_p_T(), rho_from_p_T(), Water97FluidProperties::rho_from_p_T_template(), NitrogenFluidProperties::rho_mu_from_p_T(), HydrogenFluidProperties::rho_mu_from_p_T(), CO2FluidProperties::rho_mu_from_p_T(), Water97FluidProperties::rho_mu_from_p_T(), SinglePhaseFluidProperties::rho_mu_from_p_T(), Water97FluidProperties::rho_T_from_v_e(), Water97FluidProperties::T_drhodT_from_p_rho(), LeadLithiumFluidProperties::T_from_p_rho(), LeadBismuthFluidProperties::T_from_p_rho(), LeadFluidProperties::T_from_p_rho(), TemperaturePressureFunctionFluidProperties::T_from_p_rho(), FlibeFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_rho(), FlinakFluidProperties::T_from_p_rho(), SimpleFluidProperties::T_from_p_rho(), SinglePhaseFluidProperties::v_e_from_p_T(), TabulatedFluidProperties::v_from_p_T(), and TemperaturePressureFunctionFluidProperties::v_from_p_T().

T [1/2]

e e e e s T T T T T rho SinglePhaseFluidProperties::T

inherited

Definition at line 204 of file SinglePhaseFluidProperties.h.

Referenced by LinearFluidProperties::beta_from_p_T(), IdealGasFluidProperties::beta_from_p_T(), LeadLithiumFluidProperties::bulk_modulus_from_p_T(), LeadBismuthFluidProperties::bulk_modulus_from_p_T(), LeadFluidProperties::bulk_modulus_from_p_T(), LeadLithiumFluidProperties::c_from_p_T(), CaloricallyImperfectGas::c_from_p_T(), Water97FluidProperties::c_from_p_T(), IdealGasFluidProperties::c_from_p_T(), Water97FluidProperties::c_from_p_T_template(), IdealGasFluidProperties::c_from_v_e(), LeadBismuthFluidProperties::c_from_v_e(), LeadLithiumFluidProperties::c_from_v_e(), LeadFluidProperties::c_from_v_e(), CaloricallyImperfectGas::c_from_v_e(), c_from_v_e(), Water97FluidProperties::c_from_v_e(), TabulatedFluidProperties::c_from_v_e(), TabulatedFluidProperties::checkInputVariables(), TabulatedFluidProperties::checkInputVariablesVE(), LeadBismuthFluidProperties::cp_from_p_T(), LeadLithiumFluidProperties::cp_from_p_T(), LeadFluidProperties::cp_from_p_T(), CaloricallyImperfectGas::cp_from_p_T(), IdealGasFluidProperties::cp_from_p_T(), TemperaturePressureFunctionFluidProperties::cp_from_p_T(), Water97FluidProperties::cp_from_p_T_template(), CaloricallyImperfectGas::cp_from_T(), CaloricallyImperfectGas::cp_from_v_e(), LeadLithiumFluidProperties::cp_from_v_e(), LeadBismuthFluidProperties::cp_from_v_e(), LeadFluidProperties::cp_from_v_e(), TemperaturePressureFunctionFluidProperties::cp_from_v_e(), Water97FluidProperties::cp_from_v_e(), TabulatedFluidProperties::cp_from_v_e(), LeadFluidProperties::cv_from_p_T(), LeadLithiumFluidProperties::cv_from_p_T(), LeadBismuthFluidProperties::cv_from_p_T(), CaloricallyImperfectGas::cv_from_p_T(), IdealGasFluidProperties::cv_from_p_T(), Water97FluidProperties::cv_from_p_T_template(), CaloricallyImperfectGas::cv_from_T(), CaloricallyImperfectGas::cv_from_T_v(), CaloricallyImperfectGas::cv_from_v_e(), LeadLithiumFluidProperties::cv_from_v_e(), LeadBismuthFluidProperties::cv_from_v_e(), LeadFluidProperties::cv_from_v_e(), TemperaturePressureFunctionFluidProperties::cv_from_v_e(), Water97FluidProperties::cv_from_v_e(), TabulatedFluidProperties::cv_from_v_e(), Water97FluidProperties::d2gamma1_dpi2(), Water97FluidProperties::d2gamma1_dpitau(), Water97FluidProperties::d2gamma1_dtau2(), Water97FluidProperties::d2gamma2_dpi2(), Water97FluidProperties::d2gamma2_dpitau(), Water97FluidProperties::d2gamma2_dtau2(), Water97FluidProperties::d2gamma5_dpi2(), Water97FluidProperties::d2gamma5_dpitau(), Water97FluidProperties::d2gamma5_dtau2(), Water97FluidProperties::d2phi3_ddelta2(), Water97FluidProperties::d2phi3_ddeltatau(), Water97FluidProperties::d2phi3_dtau2(), Water97FluidProperties::densityRegion3(), Water97FluidProperties::dgamma1_dpi(), Water97FluidProperties::dgamma1_dtau(), Water97FluidProperties::dgamma2_dpi(), Water97FluidProperties::dgamma2_dtau(), Water97FluidProperties::dgamma5_dpi(), Water97FluidProperties::dgamma5_dtau(), Water97FluidProperties::dphi3_ddelta(), Water97FluidProperties::dphi3_dtau(), TabulatedFluidProperties::e_from_p_rho(), LeadLithiumFluidProperties::e_from_p_rho(), LeadBismuthFluidProperties::e_from_p_rho(), LeadFluidProperties::e_from_p_rho(), SimpleFluidProperties::e_from_p_rho(), LinearFluidProperties::e_from_p_T(), StiffenedGasFluidProperties::e_from_p_T(), LeadLithiumFluidProperties::e_from_p_T(), LeadBismuthFluidProperties::e_from_p_T(), CaloricallyImperfectGas::e_from_p_T(), LeadFluidProperties::e_from_p_T(), IdealGasFluidProperties::e_from_p_T(), Water97FluidProperties::e_from_p_T_template(), CaloricallyImperfectGas::e_from_T(), StiffenedGasFluidProperties::e_from_T_v(), CaloricallyImperfectGas::e_from_T_v(), IdealGasFluidProperties::e_from_T_v(), e_from_T_v(), CaloricallyImperfectGas::e_from_v_h(), Water97FluidProperties::e_from_v_h(), SimpleFluidProperties::e_from_v_h(), TabulatedFluidProperties::e_from_v_h(), StiffenedGasFluidProperties::g_from_v_e(), CaloricallyImperfectGas::g_from_v_e(), IdealGasFluidProperties::g_from_v_e(), TabulatedFluidProperties::g_from_v_e(), Water97FluidProperties::gamma1(), Water97FluidProperties::gamma2(), Water97FluidProperties::gamma5(), CaloricallyImperfectGas::gamma_from_p_T(), LinearFluidProperties::h_from_p_T(), StiffenedGasFluidProperties::h_from_p_T(), LeadLithiumFluidProperties::h_from_p_T(), LeadBismuthFluidProperties::h_from_p_T(), LeadFluidProperties::h_from_p_T(), CaloricallyImperfectGas::h_from_p_T(), IdealGasFluidProperties::h_from_p_T(), Water97FluidProperties::h_from_p_T_template(), CaloricallyImperfectGas::h_from_T(), StiffenedGasFluidProperties::h_from_T_v(), CaloricallyImperfectGas::h_from_T_v(), IdealGasFluidProperties::h_from_T_v(), LeadLithiumFluidProperties::h_from_v_e(), LeadBismuthFluidProperties::h_from_v_e(), LeadFluidProperties::h_from_v_e(), Water97FluidProperties::henryConstant(), LeadBismuthFluidProperties::k_from_p_T(), LeadLithiumFluidProperties::k_from_p_T(), LeadFluidProperties::k_from_p_T(), CaloricallyImperfectGas::k_from_p_T(), IdealGasFluidProperties::k_from_p_T(), Water97FluidProperties::k_from_p_T_template(), Water97FluidProperties::k_from_rho_T_template(), CaloricallyImperfectGas::k_from_v_e(), LeadLithiumFluidProperties::k_from_v_e(), LeadBismuthFluidProperties::k_from_v_e(), LeadFluidProperties::k_from_v_e(), TemperaturePressureFunctionFluidProperties::k_from_v_e(), TabulatedFluidProperties::k_from_v_e(), k_from_v_e(), SinglePhaseFluidProperties::makeZeroAndOne(), LeadBismuthFluidProperties::mu_from_p_T(), CaloricallyImperfectGas::mu_from_p_T(), LeadLithiumFluidProperties::mu_from_p_T(), LeadFluidProperties::mu_from_p_T(), IdealGasFluidProperties::mu_from_p_T(), Water97FluidProperties::mu_from_p_T_template(), Water97FluidProperties::mu_from_rho_T_template(), CaloricallyImperfectGas::mu_from_v_e(), LeadLithiumFluidProperties::mu_from_v_e(), LeadBismuthFluidProperties::mu_from_v_e(), LeadFluidProperties::mu_from_v_e(), TemperaturePressureFunctionFluidProperties::mu_from_v_e(), TabulatedFluidProperties::mu_from_v_e(), Water97FluidProperties::mu_from_v_e(), CaloricallyImperfectGas::p_from_h_s(), StiffenedGasFluidProperties::p_from_T_v(), CaloricallyImperfectGas::p_from_T_v(), IdealGasFluidProperties::p_from_T_v(), p_from_T_v(), CaloricallyImperfectGas::p_from_v_e(), p_from_v_e(), FlibeFluidProperties::p_from_v_e(), FlinakFluidProperties::p_from_v_e(), TemperaturePressureFunctionFluidProperties::p_from_v_e(), Water97FluidProperties::p_from_v_e_template(), SimpleFluidProperties::p_from_v_h(), SinglePhaseFluidProperties::p_T_from_h_s(), SinglePhaseFluidProperties::p_T_from_v_e(), SinglePhaseFluidProperties::p_T_from_v_h(), Water97FluidProperties::p_T_from_v_h(), Water97FluidProperties::phi3(), SinglePhaseFluidProperties::rho_e_from_p_T(), StiffenedGasFluidProperties::rho_from_p_s(), TabulatedFluidProperties::rho_from_p_s(), CaloricallyImperfectGas::rho_from_p_s(), IdealGasFluidProperties::rho_from_p_s(), TestSinglePhaseFluidProperties::rho_from_p_T(), LinearTestFluidProperties::rho_from_p_T(), TabulatedFluidProperties::rho_from_p_T(), LinearFluidProperties::rho_from_p_T(), CaloricallyImperfectGas::rho_from_p_T(), LeadLithiumFluidProperties::rho_from_p_T(), LeadBismuthFluidProperties::rho_from_p_T(), LeadFluidProperties::rho_from_p_T(), IdealGasFluidProperties::rho_from_p_T(), Water97FluidProperties::rho_from_p_T_template(), SinglePhaseFluidProperties::rho_mu_from_p_T(), CaloricallyImperfectGas::s_from_h_p(), TabulatedFluidProperties::s_from_h_p(), Water97FluidProperties::s_from_h_p(), CaloricallyImperfectGas::s_from_p_T(), IdealGasFluidProperties::s_from_p_T(), TabulatedFluidProperties::s_from_p_T(), StiffenedGasFluidProperties::s_from_T_v(), CaloricallyImperfectGas::s_from_T_v(), IdealGasFluidProperties::s_from_T_v(), CaloricallyImperfectGas::s_from_v_e(), IdealGasFluidProperties::s_from_v_e(), TabulatedFluidProperties::s_from_v_e(), Water97FluidProperties::subregionVolume(), Water97FluidProperties::T_drhodT_from_p_rho(), TabulatedFluidProperties::T_from_h_s(), LeadLithiumFluidProperties::T_from_p_h(), LeadBismuthFluidProperties::T_from_p_h(), LeadFluidProperties::T_from_p_h(), HelmholtzFluidProperties::T_from_p_h(), TemperaturePressureFunctionFluidProperties::T_from_p_h(), CaloricallyImperfectGas::T_from_p_h(), IdealGasFluidProperties::T_from_p_h(), TabulatedFluidProperties::T_from_p_h(), Water97FluidProperties::T_from_p_h(), NaKFluidProperties::T_from_p_rho(), LeadLithiumFluidProperties::T_from_p_rho(), LeadBismuthFluidProperties::T_from_p_rho(), LeadFluidProperties::T_from_p_rho(), TemperaturePressureFunctionFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_rho(), SimpleFluidProperties::T_from_p_rho(), TabulatedFluidProperties::T_from_p_s(), LinearFluidProperties::T_from_v_e(), LeadLithiumFluidProperties::T_from_v_e(), LinearTestFluidProperties::T_from_v_e(), LeadBismuthFluidProperties::T_from_v_e(), LeadFluidProperties::T_from_v_e(), CaloricallyImperfectGas::T_from_v_e(), TemperaturePressureFunctionFluidProperties::T_from_v_e(), IdealGasFluidProperties::T_from_v_e(), FlibeFluidProperties::T_from_v_e(), FlinakFluidProperties::T_from_v_e(), T_from_v_e(), SimpleFluidProperties::T_from_v_e(), TabulatedFluidProperties::T_from_v_e(), SimpleFluidProperties::T_from_v_h(), Water97FluidProperties::tempXY(), SinglePhaseFluidProperties::v_e_from_p_T(), LeadBismuthFluidProperties::v_from_p_T(), LeadLithiumFluidProperties::v_from_p_T(), LeadFluidProperties::v_from_p_T(), SinglePhaseFluidProperties::vaporPressure(), Water97FluidProperties::vaporPressureTemplate(), Water97FluidProperties::vaporTemperature(), SinglePhaseFluidProperties::vaporTemperature(), and CaloricallyImperfectGas::Z_from_T().

T [2/2]

e e e e s T T T T T rho v SinglePhaseFluidProperties::T

inherited

Definition at line 206 of file SinglePhaseFluidProperties.h.

v [1/5]

SinglePhaseFluidProperties::v

inherited

Definition at line 182 of file SinglePhaseFluidProperties.h.

Referenced by StiffenedGasFluidProperties::c_from_v_e(), LinearFluidProperties::c_from_v_e(), TestSinglePhaseFluidProperties::c_from_v_e(), IdealGasFluidProperties::c_from_v_e(), LeadBismuthFluidProperties::c_from_v_e(), LeadLithiumFluidProperties::c_from_v_e(), LeadFluidProperties::c_from_v_e(), CaloricallyImperfectGas::c_from_v_e(), c_from_v_e(), Water97FluidProperties::c_from_v_e(), SimpleFluidProperties::c_from_v_e(), TabulatedFluidProperties::c_from_v_e(), TabulatedFluidProperties::checkInputVariablesVE(), LinearFluidProperties::cp_from_v_e(), StiffenedGasFluidProperties::cp_from_v_e(), CaloricallyImperfectGas::cp_from_v_e(), TestSinglePhaseFluidProperties::cp_from_v_e(), LeadBismuthFluidProperties::cp_from_v_e(), LeadLithiumFluidProperties::cp_from_v_e(), LeadFluidProperties::cp_from_v_e(), IdealGasFluidProperties::cp_from_v_e(), SimpleFluidProperties::cp_from_v_e(), TemperaturePressureFunctionFluidProperties::cp_from_v_e(), FlibeFluidProperties::cp_from_v_e(), FlinakFluidProperties::cp_from_v_e(), cp_from_v_e(), Water97FluidProperties::cp_from_v_e(), TabulatedFluidProperties::cp_from_v_e(), FlibeFluidProperties::cv_from_p_T(), FlinakFluidProperties::cv_from_p_T(), LinearFluidProperties::cv_from_v_e(), StiffenedGasFluidProperties::cv_from_v_e(), TestSinglePhaseFluidProperties::cv_from_v_e(), CaloricallyImperfectGas::cv_from_v_e(), LeadBismuthFluidProperties::cv_from_v_e(), LeadLithiumFluidProperties::cv_from_v_e(), LeadFluidProperties::cv_from_v_e(), IdealGasFluidProperties::cv_from_v_e(), SimpleFluidProperties::cv_from_v_e(), TemperaturePressureFunctionFluidProperties::cv_from_v_e(), FlibeFluidProperties::cv_from_v_e(), FlinakFluidProperties::cv_from_v_e(), Water97FluidProperties::cv_from_v_e(), cv_from_v_e(), TabulatedFluidProperties::cv_from_v_e(), TabulatedFluidProperties::e_from_p_rho(), e_from_p_rho(), SodiumSaturationFluidProperties::e_from_p_T(), TabulatedFluidProperties::e_from_p_T(), LeadBismuthFluidProperties::e_from_p_T(), LeadLithiumFluidProperties::e_from_p_T(), LeadFluidProperties::e_from_p_T(), FlibeFluidProperties::e_from_p_T(), FlinakFluidProperties::e_from_p_T(), StiffenedGasFluidProperties::e_from_T_v(), CaloricallyImperfectGas::e_from_T_v(), e_from_T_v(), LinearFluidProperties::e_from_v_h(), CaloricallyImperfectGas::e_from_v_h(), StiffenedGasFluidProperties::e_from_v_h(), IdealGasFluidProperties::e_from_v_h(), Water97FluidProperties::e_from_v_h(), SimpleFluidProperties::e_from_v_h(), TabulatedFluidProperties::e_from_v_h(), e_from_v_h(), StiffenedGasFluidProperties::g_from_v_e(), CaloricallyImperfectGas::g_from_v_e(), IdealGasFluidProperties::g_from_v_e(), TabulatedFluidProperties::g_from_v_e(), CaloricallyImperfectGas::gamma_from_v_e(), TabulatedFluidProperties::generateVETabulatedData(), TabulatedFluidProperties::h_from_p_T(), LeadLithiumFluidProperties::h_from_v_e(), LeadBismuthFluidProperties::h_from_v_e(), LeadFluidProperties::h_from_v_e(), StiffenedGasFluidProperties::k_from_v_e(), CaloricallyImperfectGas::k_from_v_e(), TestSinglePhaseFluidProperties::k_from_v_e(), LeadBismuthFluidProperties::k_from_v_e(), LeadLithiumFluidProperties::k_from_v_e(), LeadFluidProperties::k_from_v_e(), TemperaturePressureFunctionFluidProperties::k_from_v_e(), FlibeFluidProperties::k_from_v_e(), FlinakFluidProperties::k_from_v_e(), TabulatedFluidProperties::k_from_v_e(), Water97FluidProperties::k_from_v_e(), k_from_v_e(), Water97FluidProperties::k_from_v_e_template(), LinearTestFluidProperties::mu_from_v_e(), TestSinglePhaseFluidProperties::mu_from_v_e(), CaloricallyImperfectGas::mu_from_v_e(), LeadBismuthFluidProperties::mu_from_v_e(), LeadLithiumFluidProperties::mu_from_v_e(), LeadFluidProperties::mu_from_v_e(), TemperaturePressureFunctionFluidProperties::mu_from_v_e(), FlibeFluidProperties::mu_from_v_e(), FlinakFluidProperties::mu_from_v_e(), TabulatedFluidProperties::mu_from_v_e(), Water97FluidProperties::mu_from_v_e(), mu_from_v_e(), CaloricallyImperfectGas::p_from_h_s(), StiffenedGasFluidProperties::p_from_T_v(), CaloricallyImperfectGas::p_from_T_v(), IdealGasFluidProperties::p_from_T_v(), p_from_T_v(), TestConservedVarFluidProperties::p_from_v_e(), LinearFluidProperties::p_from_v_e(), LeadFluidProperties::p_from_v_e(), LeadBismuthFluidProperties::p_from_v_e(), LeadLithiumFluidProperties::p_from_v_e(), CaloricallyImperfectGas::p_from_v_e(), LinearTestFluidProperties::p_from_v_e(), IdealGasFluidProperties::p_from_v_e(), p_from_v_e(), FlinakFluidProperties::p_from_v_e(), FlibeFluidProperties::p_from_v_e(), SodiumSaturationFluidProperties::p_from_v_e(), TemperaturePressureFunctionFluidProperties::p_from_v_e(), Water97FluidProperties::p_from_v_e(), SimpleFluidProperties::p_from_v_e(), TabulatedFluidProperties::p_from_v_e(), Water97FluidProperties::p_from_v_e_template(), SimpleFluidProperties::p_from_v_h(), SinglePhaseFluidProperties::p_T_from_v_e(), Water97FluidProperties::p_T_from_v_e(), SinglePhaseFluidProperties::p_T_from_v_h(), Water97FluidProperties::p_T_from_v_h(), Water97FluidProperties::rho_T_from_v_e(), CaloricallyImperfectGas::s_from_h_p(), CaloricallyImperfectGas::s_from_p_T(), TabulatedFluidProperties::s_from_p_T(), StiffenedGasFluidProperties::s_from_T_v(), CaloricallyImperfectGas::s_from_T_v(), IdealGasFluidProperties::s_from_T_v(), TestSinglePhaseFluidProperties::s_from_v_e(), CaloricallyImperfectGas::s_from_v_e(), IdealGasFluidProperties::s_from_v_e(), TabulatedFluidProperties::s_from_v_e(), LinearFluidProperties::T_from_v_e(), LeadLithiumFluidProperties::T_from_v_e(), LeadBismuthFluidProperties::T_from_v_e(), LinearTestFluidProperties::T_from_v_e(), LeadFluidProperties::T_from_v_e(), CaloricallyImperfectGas::T_from_v_e(), TemperaturePressureFunctionFluidProperties::T_from_v_e(), SodiumSaturationFluidProperties::T_from_v_e(), IdealGasFluidProperties::T_from_v_e(), FlibeFluidProperties::T_from_v_e(), FlinakFluidProperties::T_from_v_e(), T_from_v_e(), SimpleFluidProperties::T_from_v_e(), Water97FluidProperties::T_from_v_e(), TabulatedFluidProperties::T_from_v_e(), SimpleFluidProperties::T_from_v_h(), SinglePhaseFluidProperties::v_e_from_p_T(), StiffenedGasFluidProperties::v_e_spndl_from_T(), CaloricallyImperfectGas::v_e_spndl_from_T(), IdealGasFluidProperties::v_e_spndl_from_T(), SodiumSaturationFluidProperties::v_from_p_T(), TabulatedFluidProperties::v_from_p_T(), Water97FluidProperties::v_from_p_T(), LeadLithiumFluidProperties::v_from_p_T(), LeadBismuthFluidProperties::v_from_p_T(), LeadFluidProperties::v_from_p_T(), TemperaturePressureFunctionFluidProperties::v_from_p_T(), FlibeFluidProperties::v_from_p_T(), FlinakFluidProperties::v_from_p_T(), Water97FluidProperties::v_from_p_T_template(), and TabulatedFluidProperties::writeTabulatedData().

v [2/5]

e SinglePhaseFluidProperties::v

inherited

Definition at line 184 of file SinglePhaseFluidProperties.h.

v [3/5]

e e SinglePhaseFluidProperties::v

inherited

Definition at line 186 of file SinglePhaseFluidProperties.h.

v [4/5]

e e e SinglePhaseFluidProperties::v

inherited

Definition at line 188 of file SinglePhaseFluidProperties.h.

v [5/5]

e e e e s T T T T T rho v v T SinglePhaseFluidProperties::v

inherited

Definition at line 210 of file SinglePhaseFluidProperties.h.

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The documentation for this class was generated from the following files:

• fluid_properties/include/fluidproperties/HeliumFluidProperties.h
• fluid_properties/src/fluidproperties/HeliumFluidProperties.C