TPZIncNavierStokesKEps Class Reference

This class implements an imcompressible Navier-Stokes formulation with modified KEpsilon turbulence model. More...

#include <pzincnskeps.h>

Inheritance diagram for TPZIncNavierStokesKEps:

Collaboration diagram for TPZIncNavierStokesKEps:

Public Types
enum	VARIABLES {   ENone, EK, EEpsilon, EPressure,   EVx, EVy, EVz, EVvector }

Public Member Functions
	TPZIncNavierStokesKEps (int id, int dimension)
void	SetParameters (STATE MU, STATE RHO, STATE Cmu, STATE SigmaK, STATE SigmaEps, STATE Cepsilon1, STATE Cepsilon2, TPZVec< STATE > &BodyForce)
void	GetParameters (STATE &MU, STATE &RHO, STATE &Cmu, STATE &SigmaK, STATE &SigmaEps, STATE &Cepsilon1, STATE &Cepsilon2, TPZVec< STATE > &BodyForce)
virtual	~TPZIncNavierStokesKEps ()
virtual int	Dimension () const override
	Returns the integrable dimension of the material. More...
virtual int	NStateVariables () const override
	Returns the number of state variables associated with the material. More...
virtual void	Print (std::ostream &out=std::cout) override
	Print out the data associated with the material. More...
virtual int	NSolutionVariables (int var) override
	Returns the number of variables associated with the variable indexed by var. var is obtained by calling VariableIndex. More...
virtual void	Solution (TPZMaterialData &data, int var, TPZVec< STATE > &Solout) override
	Returns the solution associated with the var index based on the finite element approximation. More...
virtual void	Contribute (TPZMaterialData &data, REAL weight, TPZFMatrix< STATE > &ek, TPZFMatrix< STATE > &ef) override
	Computes contribution to the tangent matrix and residual at an integration point. More...
virtual void	Contribute (TPZMaterialData &data, REAL weight, TPZFMatrix< STATE > &ef) override
	Computes contribution to the residual at an integration point. More...
virtual void	ContributeBC (TPZMaterialData &data, REAL weight, TPZFMatrix< STATE > &ek, TPZFMatrix< STATE > &ef, TPZBndCond &bc) override
	Computes contribution to the stiffness matrix and right hand side at the integration point of a boundary. More...
virtual void	ContributeBC (TPZMaterialData &data, REAL weight, TPZFMatrix< STATE > &ef, TPZBndCond &bc) override
	Computes contribution to the stiffness matrix and right hand side at the integration point of a boundary. More...
virtual void	Errors (TPZVec< REAL > &x, TPZVec< STATE > &sol, TPZFMatrix< STATE > &dsol, TPZFMatrix< REAL > &axes, TPZVec< STATE > &flux, TPZVec< STATE > &uexact, TPZFMatrix< STATE > &duexact, TPZVec< REAL > &val) override
	Computes the error due to the difference between the interpolated flux and the flux computed based on the derivative of the solution. More...
virtual int	ClassId () const override
	Define the class id associated with the class. More...
Public Member Functions inherited from TPZMaterial
	TPZMaterial (int id)
	Creates a material object and inserts it in the vector of material pointers of the mesh. More...
	TPZMaterial ()
	Default constructor. More...
	TPZMaterial (const TPZMaterial &mat)
	Creates a material object based on the referred object and inserts it in the vector of material pointers of the mesh. More...
TPZMaterial &	operator= (const TPZMaterial &copy)
	operator = More...
virtual	~TPZMaterial ()
	Default destructor. More...
virtual void	FillDataRequirements (TPZMaterialData &data)
	Fill material data parameter with necessary requirements for the. More...
virtual void	FillDataRequirements (TPZVec< TPZMaterialData > &datavec)
	Fill material data parameter with necessary requirements for the Contribute method. Here, in base class, all requirements are considered as necessary. Each derived class may optimize performance by selecting only the necessary data. More...
virtual void	FillBoundaryConditionDataRequirement (int type, TPZMaterialData &data)
	This method defines which parameters need to be initialized in order to compute the contribution of the boundary condition. More...
virtual void	FillBoundaryConditionDataRequirement (int type, TPZVec< TPZMaterialData > &datavec)
	This method defines which parameters need to be initialized in order to compute the contribution of the boundary condition. More...
virtual void	FillDataRequirementsInterface (TPZMaterialData &data)
	This method defines which parameters need to be initialized in order to compute the contribution of interface elements. More...
virtual void	FillDataRequirementsInterface (TPZMaterialData &data, TPZVec< TPZMaterialData > &datavec_left, TPZVec< TPZMaterialData > &datavec_right)
	This method defines which parameters need to be initialized in order to compute the contribution of interface elements. More...
virtual std::string	Name ()
	Returns the name of the material. More...
int	Id () const
void	SetId (int id)
virtual int	NFluxes ()
	Returns the number of components which form the flux function. More...
int	NumLoadCases ()
	returns the number of load cases for this material object More...
virtual int	MinimumNumberofLoadCases ()
	returns the minimum number of load cases for this material More...
void	SetNumLoadCases (int numloadcases)
	changes the number of load cases for this material More...
void	SetPostProcessIndex (int index)
	indicates which variable should be post processed More...
virtual TPZBndCond *	CreateBC (TPZMaterial *reference, int id, int typ, TPZFMatrix< STATE > &val1, TPZFMatrix< STATE > &val2)
	Creates an object TPZBndCond derived of TPZMaterial. More...
void	SetForcingFunction (TPZAutoPointer< TPZFunction< STATE > > fp)
	Sets a procedure as source function for the material. More...
void	SetForcingFunction (void(*fp)(const TPZVec< REAL > &loc, TPZVec< STATE > &result), int porder)
void	SetForcingFunction (void(*fp)(const TPZVec< REAL > &loc, TPZVec< STATE > &result, TPZFMatrix< STATE > &gradu), int porder)
TPZAutoPointer< TPZFunction< STATE > > &	ForcingFunction ()
	Returns a procedure as source function for the material. More...
void	SetForcingFunctionExact (TPZAutoPointer< TPZFunction< STATE > > fp)
	Sets a procedure as exact solution for the problem. More...
TPZAutoPointer< TPZFunction< STATE > > &	ForcingFunctionExact ()
	Returns a procedure as exact solution for the problem. More...
void	SetTimeDependentForcingFunction (TPZAutoPointer< TPZFunction< STATE > > fp)
	Sets a procedure as time dependent source function for the material. More...
TPZAutoPointer< TPZFunction< STATE > > &	TimeDependentForcingFunction ()
	Returns a procedure as time dependent source function for the material. More...
void	SetTimeDependentFunctionExact (TPZAutoPointer< TPZFunction< STATE > > fp)
	Sets a procedure as time dependent exact solution for the problem. More...
TPZAutoPointer< TPZFunction< STATE > > &	TimedependentFunctionExact ()
	Returns a procedure as time dependent exact solution for the problem. More...
void	SetBCForcingFunction (TPZAutoPointer< TPZFunction< STATE > > fp)
	Sets a procedure as variable boundary condition. More...
TPZAutoPointer< TPZFunction< STATE > > &	BCForcingFunction ()
	Returns a procedure as variable boundary condition. More...
void	SetTimedependentBCForcingFunction (TPZAutoPointer< TPZFunction< STATE > > fp)
	Sets a procedure as time variable boundary condition. More...
TPZAutoPointer< TPZFunction< STATE > > &	TimedependentBCForcingFunction ()
	Returns a procedure as time variable boundary condition. More...
virtual int	HasForcingFunction ()
	Directive that gives true if the material has a forcing function. More...
virtual int	HasForcingFunctionExact ()
	Directive that gives true if the material has a function exact. More...
virtual int	HasBCForcingFunction ()
	Directive that gives true if the material has a bc forcing function exact. More...
virtual int	HasTimedependentFunctionExact ()
	Directive that gives true if the material has a time dependent function exact. More...
virtual int	HasTimedependentForcingFunction ()
	Directive that gives true if the material has a time dependent forcing function. More...
virtual int	HasTimedependentBCForcingFunction ()
	Directive that gives true if the material has a time dependent bc forcing function. More...
virtual int	IntegrationRuleOrder (int elPMaxOrder) const
	Gets the order of the integration rule necessary to integrate an element with polinomial order p. More...
virtual int	IntegrationRuleOrder (TPZVec< int > &elPMaxOrder) const
	Gets the order of the integration rule necessary to integrate an element multiphysic. More...
virtual void	Errors (TPZMaterialData &data, TPZVec< STATE > &u_exact, TPZFMatrix< STATE > &du_exact, TPZVec< REAL > &errors)
virtual void	Errors (TPZVec< TPZMaterialData > &data, TPZVec< STATE > &u_exact, TPZFMatrix< STATE > &du_exact, TPZVec< REAL > &errors)
virtual void	ErrorsHdiv (TPZMaterialData &data, TPZVec< STATE > &u_exact, TPZFMatrix< STATE > &du_exact, TPZVec< REAL > &values)
virtual int	NEvalErrors ()
	Returns the number of norm errors. Default is 3: energy, L2 and H1. More...
virtual TPZMaterial *	NewMaterial ()
	To create another material of the same type. More...
virtual void	SetData (std::istream &data)
	Reads data of the material from a istream (file data) More...
virtual void	Clone (std::map< int, TPZMaterial * > &matvec)
	Creates a copy of the material object and put it in the vector which is passed on. More...
virtual int	FluxType ()
	To return a numerical flux type to apply over the interfaces of the elements. More...
virtual void	ContributeErrors (TPZMaterialData &data, REAL weight, TPZVec< REAL > &nk, int &errorid)
virtual REAL	ComputeSquareResidual (TPZVec< REAL > &X, TPZVec< STATE > &sol, TPZFMatrix< STATE > &dsol)
	Computes square of residual of the differential equation at one integration point. More...
virtual int	PushMemItem (int sourceIndex=-1)
	Pushes a new entry in the context of materials with memory, returning its index at the internal storage stack. More...
virtual void	FreeMemItem (int index)
	Frees an entry in the material with memory internal history storage. More...
void	SetLinearContext (bool IsLinear)
	Sets fLinearContext attribute. More...
bool	GetLinearContext () const
	Returns fLinearContext attribute. More...
virtual void	Contribute (TPZVec< TPZMaterialData > &datavec, REAL weight, TPZFMatrix< STATE > &ek, TPZFMatrix< STATE > &ef)
	It computes a contribution to the stiffness matrix and load vector at one integration point to multiphysics simulation. More...
virtual void	Contribute (TPZVec< TPZMaterialData > &datavec, REAL weight, TPZFMatrix< STATE > &ef)
	It computes a contribution to the stiffness matrix and load vector at one integration point to multiphysics simulation. More...
virtual void	ContributeBC (TPZVec< TPZMaterialData > &datavec, REAL weight, TPZFMatrix< STATE > &ef, TPZBndCond &bc)
	It computes a contribution to the stiffness matrix and load vector at one BC integration point to multiphysics simulation. More...
virtual void	ContributeBC (TPZVec< TPZMaterialData > &datavec, REAL weight, TPZFMatrix< STATE > &ek, TPZFMatrix< STATE > &ef, TPZBndCond &bc)
	It computes a contribution to the stiffness matrix and load vector at one BC integration point to multiphysics simulation. More...
int	ClassId () const override
	Unique identifier for serialization purposes. More...
void	Write (TPZStream &buf, int withclassid) const override
	Saves the element data to a stream. More...
void	Read (TPZStream &buf, void *context) override
	Reads the element data from a stream. More...
virtual int	VariableIndex (const std::string &name)
	Returns the variable index associated with the name. More...
virtual void	Solution (TPZVec< TPZMaterialData > &datavec, int var, TPZVec< STATE > &Solout)
	Returns the solution associated with the var index based on the finite element approximation. More...
virtual void	Solution (TPZMaterialData &data, TPZVec< TPZMaterialData > &dataleftvec, TPZVec< TPZMaterialData > &datarightvec, int var, TPZVec< STATE > &Solout)
	Returns the solution associated with the var index based on the finite element approximation around one interface element. More...
virtual void	Solution (TPZMaterialData &data, TPZVec< TPZMaterialData > &dataleftvec, TPZVec< TPZMaterialData > &datarightvec, int var, TPZVec< STATE > &Solout, TPZCompEl *left, TPZCompEl *ritgh)
	Returns the solution associated with the var index based on the finite element approximation around one interface element. More...
virtual void	Flux (TPZVec< REAL > &x, TPZVec< STATE > &Sol, TPZFMatrix< STATE > &DSol, TPZFMatrix< REAL > &axes, TPZVec< STATE > &flux)
	Computes the value of the flux function to be used by ZZ error estimator. More...
Public Member Functions inherited from TPZSavable
	TPZSavable ()
virtual	~TPZSavable ()
virtual std::list< std::map< std::string, uint64_t > >	VersionHistory () const
virtual std::pair< std::string, uint64_t >	Version () const
virtual bool	Compare (TPZSavable *copy, bool override=false)
	Compares the object for identity with the object pointed to, eventually copy the object. More...
virtual bool	Compare (TPZSavable *copy, bool override=false) const
	Compares the object for identity with the object pointed to, eventually copy the object. More...
Public Member Functions inherited from TPZRegisterClassId
template<typename T >
	TPZRegisterClassId (int(T::*)() const)
	TPZRegisterClassId ()=default

Protected Member Functions
virtual void	Solution (TPZVec< STATE > &Sol, TPZFMatrix< STATE > &DSol, TPZFMatrix< REAL > &axes, int var, TPZVec< STATE > &Solout) override
	Returns the solution associated with the var index based on the finite element approximation. More...
Protected Member Functions inherited from TPZMaterial

Private Member Functions
STATE	Dot (TPZFMatrix< STATE > &A, TPZFMatrix< STATE > &B)
	Dot for matrices with same dimensions. No consistence test is made. More...
STATE	Dot (TPZVec< STATE > &A, TPZFMatrix< STATE > &B, int BRow)
	Dot of vector A with row BRow of matrix B. More...
STATE	Dot (TPZVec< STATE > &A, TPZVec< STATE > &B)
	Dot for vectors with same dimensions. No consistence test is made. More...

Private Attributes
int	fDimension
STATE	fMU
STATE	fRHO
STATE	fCmu
STATE	fSigmaK
STATE	fSigmaEps
STATE	fCepsilon1
STATE	fCepsilon2
TPZVec< STATE >	fBodyForce

Additional Inherited Members
Static Public Member Functions inherited from TPZSavable
static std::set< TPZRestoreClassBase * > &	RestoreClassSet ()
	This static function guarantees that the gMap object is available when needed. More...
static std::map< int, TPZRestore_t > &	ClassIdMap ()
	This static function guarantees that the gMap object is available when needed. More...
static std::pair< std::string, uint64_t >	NeoPZVersion ()
static void	Register (TPZRestoreClassBase *restore)
static void	RegisterClassId (int classid, TPZRestore_t fun)
static TPZSavable *	CreateInstance (const int &classId)
Static Public Attributes inherited from TPZMaterial
static REAL	gBigNumber
	Big number to penalization method, used for Dirichlet conditions. More...
Protected Attributes inherited from TPZMaterial
TPZAutoPointer< TPZFunction< STATE > >	fForcingFunction
	Pointer to forcing function, it is the right member at differential equation. More...
TPZAutoPointer< TPZFunction< STATE > >	fForcingFunctionExact
	Pointer to exact solution function, needed to calculate exact error. More...
TPZAutoPointer< TPZFunction< STATE > >	fTimeDependentForcingFunction
	Pointer to time dependent forcing function, it is the right member at differential equation. More...
TPZAutoPointer< TPZFunction< STATE > >	fTimedependentFunctionExact
	Pointer to time dependent exact solution function, needed to calculate exact error. More...
TPZAutoPointer< TPZFunction< STATE > >	fBCForcingFunction
	Pointer to bc forcing function, it is a variable boundary condition at differential equation. More...
TPZAutoPointer< TPZFunction< STATE > >	fTimedependentBCForcingFunction
	Pointer to time dependent bc forcing function, it is a variable boundary condition at differential equation. More...
bool	fLinearContext
	Defines whether the equation context is linear solver or non linear. More...
int	fNumLoadCases
	Defines the number of load cases generated by this material. More...
int	fPostProcIndex
	indicates which solution should be used for post processing More...

Detailed Description

This class implements an imcompressible Navier-Stokes formulation with modified KEpsilon turbulence model.

Author

Professor Paulo Vatavuk

Professor Philippe Devloo

Edimar Cesar Rylo

Luis Fernando

Roberto H. Heiderich

Tiago Forti

Since

June 29, 2005 Variables are: {K, Eps, Pressure, Vx, Vy, Vz}. This class is homework:

Definition at line 35 of file pzincnskeps.h.

Member Enumeration Documentation

VARIABLES

enum TPZIncNavierStokesKEps::VARIABLES

Enumerator
ENone
EK
EEpsilon
EPressure
EVx
EVy
EVz
EVvector

Definition at line 56 of file pzincnskeps.h.

Constructor & Destructor Documentation

TPZIncNavierStokesKEps()

TPZIncNavierStokesKEps::TPZIncNavierStokesKEps	(	int	id,
		int	dimension
	)

Definition at line 8 of file pzincnskeps.cpp.

References dimension, and fDimension.

~TPZIncNavierStokesKEps()

TPZIncNavierStokesKEps::~TPZIncNavierStokesKEps ( )

virtual

Definition at line 14 of file pzincnskeps.cpp.

Member Function Documentation

ClassId()

int TPZIncNavierStokesKEps::ClassId ( ) const

overridevirtual

Define the class id associated with the class.

This id has to be unique for all classes A non unique id is flagged at the startup of the program

Implements TPZSavable.

Definition at line 251 of file pzincnskeps.cpp.

References TPZMaterial::ClassId(), and Hash().

Referenced by Errors().

Contribute() [1/2]

void TPZIncNavierStokesKEps::Contribute ( TPZMaterialData &  data, REAL  weight, TPZFMatrix< STATE > &  ek, TPZFMatrix< STATE > &  ef  )

overridevirtual

Computes contribution to the tangent matrix and residual at an integration point.

Implements TPZMaterial.

Definition at line 87 of file pzincnskeps.cpp.

References DebugStop, Dimension(), Dot(), TPZMaterialData::dphix, TPZMaterialData::dsol, EEpsilon, EK, EPressure, EVx, exp, fBodyForce, fCepsilon1, fCepsilon2, fCmu, fMU, fRHO, fSigmaEps, fSigmaK, NStateVariables(), TPZMaterialData::phi, TPZMatrix< TVar >::Rows(), TPZVec< T >::size(), and TPZMaterialData::sol.

Referenced by Solution().

Contribute() [2/2]

void TPZIncNavierStokesKEps::Contribute ( TPZMaterialData &  data, REAL  weight, TPZFMatrix< STATE > &  ef  )

overridevirtual

Computes contribution to the residual at an integration point.

Reimplemented from TPZMaterial.

Definition at line 203 of file pzincnskeps.cpp.

ContributeBC() [1/2]

void TPZIncNavierStokesKEps::ContributeBC ( TPZMaterialData &  data, REAL  weight, TPZFMatrix< STATE > &  ek, TPZFMatrix< STATE > &  ef, TPZBndCond &  bc  )

overridevirtual

Computes contribution to the stiffness matrix and right hand side at the integration point of a boundary.

Implements TPZMaterial.

Definition at line 210 of file pzincnskeps.cpp.

Referenced by Solution().

ContributeBC() [2/2]

virtual void TPZIncNavierStokesKEps::ContributeBC ( TPZMaterialData &  data, REAL  weight, TPZFMatrix< STATE > &  ef, TPZBndCond &  bc  )

inlineoverridevirtual

Computes contribution to the stiffness matrix and right hand side at the integration point of a boundary.

Reimplemented from TPZMaterial.

Definition at line 110 of file pzincnskeps.h.

References TPZMaterial::ContributeBC().

Dimension()

int TPZIncNavierStokesKEps::Dimension ( ) const

overridevirtual

Returns the integrable dimension of the material.

Implements TPZMaterial.

Definition at line 38 of file pzincnskeps.cpp.

References fDimension.

Referenced by Contribute(), NSolutionVariables(), NStateVariables(), and Solution().

Dot() [1/3]

STATE TPZIncNavierStokesKEps::Dot ( TPZFMatrix< STATE > &  A, TPZFMatrix< STATE > &  B  )

private

Dot for matrices with same dimensions. No consistence test is made.

Definition at line 218 of file pzincnskeps.cpp.

References TPZMatrix< TVar >::Cols(), and TPZMatrix< TVar >::Rows().

Referenced by Contribute().

Dot() [2/3]

STATE TPZIncNavierStokesKEps::Dot ( TPZVec< STATE > &  A, TPZFMatrix< STATE > &  B, int  BRow  )

private

Dot of vector A with row BRow of matrix B.

Definition at line 241 of file pzincnskeps.cpp.

References TPZVec< T >::NElements().

Dot() [3/3]

STATE TPZIncNavierStokesKEps::Dot ( TPZVec< STATE > &  A, TPZVec< STATE > &  B  )

private

Dot for vectors with same dimensions. No consistence test is made.

Definition at line 231 of file pzincnskeps.cpp.

References TPZVec< T >::NElements().

Errors()

virtual void TPZIncNavierStokesKEps::Errors ( TPZVec< REAL > &  x, TPZVec< STATE > &  sol, TPZFMatrix< STATE > &  dsol, TPZFMatrix< REAL > &  axes, TPZVec< STATE > &  flux, TPZVec< STATE > &  uexact, TPZFMatrix< STATE > &  duexact, TPZVec< REAL > &  val  )

inlineoverridevirtual

Computes the error due to the difference between the interpolated flux and the flux computed
based on the derivative of the solution.

Reimplemented from TPZMaterial.

Definition at line 123 of file pzincnskeps.h.

References ClassId(), and PZError.

GetParameters()

void TPZIncNavierStokesKEps::GetParameters	(	STATE &	MU,
		STATE &	RHO,
		STATE &	Cmu,
		STATE &	SigmaK,
		STATE &	SigmaEps,
		STATE &	Cepsilon1,
		STATE &	Cepsilon2,
		TPZVec< STATE > &	BodyForce
	)

Definition at line 27 of file pzincnskeps.cpp.

References fBodyForce, fCepsilon1, fCepsilon2, fCmu, fMU, fRHO, fSigmaEps, and fSigmaK.

NSolutionVariables()

int TPZIncNavierStokesKEps::NSolutionVariables ( int  var )

overridevirtual

Returns the number of variables associated with the variable indexed by var.
var is obtained by calling VariableIndex.

Reimplemented from TPZMaterial.

Definition at line 50 of file pzincnskeps.cpp.

References Dimension(), EEpsilon, EK, EPressure, EVvector, and PZError.

NStateVariables()

int TPZIncNavierStokesKEps::NStateVariables ( ) const

overridevirtual

Returns the number of state variables associated with the material.

Implements TPZMaterial.

Definition at line 42 of file pzincnskeps.cpp.

References Dimension().

Referenced by Contribute().

Print()

void TPZIncNavierStokesKEps::Print ( std::ostream &  out = std::cout )

overridevirtual

Print out the data associated with the material.

Reimplemented from TPZMaterial.

Definition at line 46 of file pzincnskeps.cpp.

References TPZMaterial::Print().

SetParameters()

void TPZIncNavierStokesKEps::SetParameters	(	STATE	MU,
		STATE	RHO,
		STATE	Cmu,
		STATE	SigmaK,
		STATE	SigmaEps,
		STATE	Cepsilon1,
		STATE	Cepsilon2,
		TPZVec< STATE > &	BodyForce
	)

Definition at line 16 of file pzincnskeps.cpp.

References fBodyForce, fCepsilon1, fCepsilon2, fCmu, fMU, fRHO, fSigmaEps, and fSigmaK.

Solution() [1/2]

void TPZIncNavierStokesKEps::Solution ( TPZVec< STATE > &  Sol, TPZFMatrix< STATE > &  DSol, TPZFMatrix< REAL > &  axes, int  var, TPZVec< STATE > &  Solout  )

overrideprotectedvirtual

Returns the solution associated with the var index based on the finite element approximation.

Reimplemented from TPZMaterial.

Definition at line 57 of file pzincnskeps.cpp.

References Dimension(), EEpsilon, EK, EPressure, EVvector, EVx, and PZError.

Solution() [2/2]

virtual void TPZIncNavierStokesKEps::Solution ( TPZMaterialData &  data, int  var, TPZVec< STATE > &  Solout  )

inlineoverridevirtual

Returns the solution associated with the var index based on the finite element approximation.

Reimplemented from TPZMaterial.

Definition at line 84 of file pzincnskeps.h.

References bc, Contribute(), ContributeBC(), and TPZMaterial::Solution().

Member Data Documentation

fBodyForce

TPZVec<STATE> TPZIncNavierStokesKEps::fBodyForce

private

Definition at line 43 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

fCepsilon1

STATE TPZIncNavierStokesKEps::fCepsilon1

private

Definition at line 41 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

fCepsilon2

STATE TPZIncNavierStokesKEps::fCepsilon2

private

Definition at line 41 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

fCmu

STATE TPZIncNavierStokesKEps::fCmu

private

Definition at line 41 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

fDimension

int TPZIncNavierStokesKEps::fDimension

private

Definition at line 39 of file pzincnskeps.h.

Referenced by Dimension(), and TPZIncNavierStokesKEps().

fMU

STATE TPZIncNavierStokesKEps::fMU

private

Definition at line 41 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

fRHO

STATE TPZIncNavierStokesKEps::fRHO

private

Definition at line 41 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

fSigmaEps

STATE TPZIncNavierStokesKEps::fSigmaEps

private

Definition at line 41 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

fSigmaK

STATE TPZIncNavierStokesKEps::fSigmaK

private

Definition at line 41 of file pzincnskeps.h.

Referenced by Contribute(), GetParameters(), and SetParameters().

---

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

• Material/REAL/pzincnskeps.h
• Material/REAL/pzincnskeps.cpp