Physics class for Incompressible Navier-Stokes. More...

#include <inc_navier_stokes_base.h>

Inheritance diagram for GRINS::IncompressibleNavierStokesBase< Viscosity >:

[legend]

Collaboration diagram for GRINS::IncompressibleNavierStokesBase< Viscosity >:

[legend]

Public Member Functions
	IncompressibleNavierStokesBase (const std::string &my_physics_name, const std::string &core_physics_name, const GetPot &input)

	~IncompressibleNavierStokesBase ()

virtual void	init_variables (libMesh::FEMSystem *system)
	Initialization of Navier-Stokes variables. More...

virtual void	set_time_evolving_vars (libMesh::FEMSystem *system)
	Sets velocity variables to be time-evolving. More...

virtual void	init_context (AssemblyContext &context)
	Initialize context for added physics variables. More...

virtual void	register_parameter (const std::string &param_name, libMesh::ParameterMultiAccessor< libMesh::Number > &param_pointer) const
	Each subclass will register its copy of an independent. More...

libMesh::Real	get_viscosity_value (AssemblyContext &context, unsigned int qp) const

Public Member Functions inherited from GRINS::Physics
	Physics (const GRINS::PhysicsName &physics_name, const GetPot &input)

virtual	~Physics ()

virtual bool	enabled_on_elem (const libMesh::Elem *elem)
	Find if current physics is active on supplied element. More...

void	set_is_steady (bool is_steady)
	Sets whether this physics is to be solved with a steady solver or not. More...

bool	is_steady () const
	Returns whether or not this physics is being solved with a steady solver. More...

virtual void	auxiliary_init (MultiphysicsSystem &system)
	Any auxillary initialization a Physics class may need. More...

virtual void	register_postprocessing_vars (const GetPot &input, PostProcessedQuantities< libMesh::Real > &postprocessing)
	Register name of postprocessed quantity with PostProcessedQuantities. More...

virtual void	element_time_derivative (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Time dependent part(s) of physics for element interiors. More...

virtual void	side_time_derivative (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Time dependent part(s) of physics for boundaries of elements on the domain boundary. More...

virtual void	nonlocal_time_derivative (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Time dependent part(s) of physics for scalar variables. More...

virtual void	element_constraint (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Constraint part(s) of physics for element interiors. More...

virtual void	side_constraint (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Constraint part(s) of physics for boundaries of elements on the domain boundary. More...

virtual void	nonlocal_constraint (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Constraint part(s) of physics for scalar variables. More...

virtual void	damping_residual (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Damping matrix part(s) for element interiors. All boundary terms lie within the time_derivative part. More...

virtual void	mass_residual (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Mass matrix part(s) for element interiors. All boundary terms lie within the time_derivative part. More...

virtual void	nonlocal_mass_residual (bool compute_jacobian, AssemblyContext &context, CachedValues &cache)
	Mass matrix part(s) for scalar variables. More...

void	init_ics (libMesh::FEMSystem *system, libMesh::CompositeFunction< libMesh::Number > &all_ics)

virtual void	compute_element_time_derivative_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_side_time_derivative_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_nonlocal_time_derivative_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_element_constraint_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_side_constraint_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_nonlocal_constraint_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_damping_residual_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_mass_residual_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_nonlocal_mass_residual_cache (const AssemblyContext &context, CachedValues &cache)

virtual void	compute_postprocessed_quantity (unsigned int quantity_index, const AssemblyContext &context, const libMesh::Point &point, libMesh::Real &value)

ICHandlingBase *	get_ic_handler ()

Public Member Functions inherited from GRINS::ParameterUser
	ParameterUser (const std::string &user_name)

virtual	~ParameterUser ()

virtual void	set_parameter (libMesh::Number &param_variable, const GetPot &input, const std::string &param_name, libMesh::Number param_default)
	Each subclass can simultaneously read a parameter value from. More...

virtual void	set_parameter (libMesh::ParsedFunction< libMesh::Number, libMesh::Gradient > &func, const GetPot &input, const std::string &func_param_name, const std::string &param_default)
	Each subclass can simultaneously read a parsed function from. More...

virtual void	set_parameter (libMesh::ParsedFEMFunction< libMesh::Number > &func, const GetPot &input, const std::string &func_param_name, const std::string &param_default)
	Each subclass can simultaneously read a parsed function from. More...

virtual void	move_parameter (const libMesh::Number &old_parameter, libMesh::Number &new_parameter)
	When cloning an object, we need to update parameter pointers. More...

virtual void	move_parameter (const libMesh::ParsedFunction< libMesh::Number, libMesh::Gradient > &old_func, libMesh::ParsedFunction< libMesh::Number, libMesh::Gradient > &new_func)
	When cloning an object, we need to update parameter pointers. More...

virtual void	move_parameter (const libMesh::ParsedFEMFunction< libMesh::Number > &old_func, libMesh::ParsedFEMFunction< libMesh::Number > &new_func)
	When cloning an object, we need to update parameter pointers. More...

Protected Attributes
unsigned int	_dim
	Physical dimension of problem. More...

VelocityFEVariables	_flow_vars

PressureFEVariable	_press_var

libMesh::Number	_rho
	Material parameters, read from input. More...

Viscosity	_mu
	Viscosity object. More...

Protected Attributes inherited from GRINS::Physics
const PhysicsName	_physics_name
	Name of the physics object. Used for reading physics specific inputs. More...

GRINS::ICHandlingBase *	_ic_handler

std::set< libMesh::subdomain_id_type >	_enabled_subdomains
	Subdomains on which the current Physics class is enabled. More...

Private Member Functions
	IncompressibleNavierStokesBase ()

void	register_variables ()

Additional Inherited Members
Static Public Member Functions inherited from GRINS::Physics
static void	set_is_axisymmetric (bool is_axisymmetric)
	Set whether we should treat the problem as axisymmetric. More...

static bool	is_axisymmetric ()

Static Public Attributes inherited from GRINS::ParameterUser
static std::string	zero_vector_function = std::string("{0}")
	A parseable function string with LIBMESH_DIM components, all 0. More...

Protected Member Functions inherited from GRINS::Physics
libMesh::UniquePtr< libMesh::FEGenericBase< libMesh::Real > >	build_new_fe (const libMesh::Elem elem, const libMesh::FEGenericBase< libMesh::Real > fe, const libMesh::Point p)

void	parse_enabled_subdomains (const GetPot &input, const std::string &physics_name)

Static Protected Attributes inherited from GRINS::Physics
static bool	_is_steady = false
	Caches whether or not the solver that's being used is steady or not. More...

static bool	_is_axisymmetric = false
	Caches whether we are solving an axisymmetric problem or not. More...

Detailed Description

template<class Viscosity>
class GRINS::IncompressibleNavierStokesBase< Viscosity >

Physics class for Incompressible Navier-Stokes.

This physics class implements the classical Incompressible Navier-Stokes equations. This is a templated class, the class Viscosity can be instantiated as a specific type (right now:ConstantViscosity or SpatiallyVaryingViscosity) to allow the user to specify a constant or spatially varying viscosity in the input file

Definition at line 45 of file inc_navier_stokes_base.h.

Constructor & Destructor Documentation

template<class Mu >

GRINS::IncompressibleNavierStokesBase< Mu >::IncompressibleNavierStokesBase	(	const std::string &	my_physics_name,
		const std::string &	core_physics_name,
		const GetPot &	input
	)

Definition at line 47 of file inc_navier_stokes_base.C.

References GRINS::IncompressibleNavierStokesBase< Viscosity >::_rho, GRINS::MaterialsParsing::read_density(), and GRINS::IncompressibleNavierStokesBase< Viscosity >::register_variables().

     : Physics(my_physics_name, input),
       _flow_vars(input, core_physics_name),
       _press_var(input, core_physics_name, true /*is_constraint_var*/),
       _rho(0.0),
       _mu(input,MaterialsParsing::material_name(input,core_physics_name))
   {
     MaterialsParsing::read_density( core_physics_name, input, (*this), this->_rho );
     this->register_variables();
   }

template<class Viscosity >

GRINS::IncompressibleNavierStokesBase< Viscosity >::~IncompressibleNavierStokesBase ( )

inline

Definition at line 53 of file inc_navier_stokes_base.h.

53 {};

template<class Viscosity >

GRINS::IncompressibleNavierStokesBase< Viscosity >::IncompressibleNavierStokesBase ( )

private

Member Function Documentation

template<class Mu >

libMesh::Real GRINS::IncompressibleNavierStokesBase< Mu >::get_viscosity_value	(	AssemblyContext &	context,
		unsigned int	qp
	)		const

Definition at line 83 of file inc_navier_stokes_base.C.

   {
     return this->_mu(context, qp);
   }

template<class Mu >

void GRINS::IncompressibleNavierStokesBase< Mu >::init_context ( AssemblyContext & context )

virtual

Initialize context for added physics variables.

Reimplemented from GRINS::Physics.

Reimplemented in GRINS::AveragedFan< Viscosity >, GRINS::AveragedTurbine< Viscosity >, GRINS::VelocityDrag< Viscosity >, GRINS::ParsedVelocitySource< Viscosity >, GRINS::VelocityPenalty< Viscosity >, GRINS::AveragedTurbineAdjointStabilization< Viscosity >, GRINS::VelocityDragAdjointStabilization< Viscosity >, GRINS::AveragedFanAdjointStabilization< Viscosity >, GRINS::ParsedVelocitySourceAdjointStabilization< Viscosity >, GRINS::VelocityPenaltyAdjointStabilization< Viscosity >, and GRINS::IncompressibleNavierStokesStabilizationBase< Viscosity >.

Definition at line 105 of file inc_navier_stokes_base.C.

Referenced by GRINS::IncompressibleNavierStokesStabilizationBase< Viscosity >::init_context().

   {
     // We should prerequest all the data
     // we will need to build the linear system
     // or evaluate a quantity of interest.
     context.get_element_fe(_flow_vars.u())->get_JxW();
     context.get_element_fe(_flow_vars.u())->get_phi();
     context.get_element_fe(_flow_vars.u())->get_dphi();
     context.get_element_fe(_flow_vars.u())->get_xyz();
 
     context.get_element_fe(_press_var.p())->get_phi();
     context.get_element_fe(_press_var.p())->get_xyz();
 
     context.get_side_fe(_flow_vars.u())->get_JxW();
     context.get_side_fe(_flow_vars.u())->get_phi();
     context.get_side_fe(_flow_vars.u())->get_dphi();
     context.get_side_fe(_flow_vars.u())->get_xyz();
 
     return;
   }

template<class Mu >

void GRINS::IncompressibleNavierStokesBase< Mu >::init_variables ( libMesh::FEMSystem * system )

virtual

Initialization of Navier-Stokes variables.

Add velocity and pressure variables to system.

Implements GRINS::Physics.

Reimplemented in GRINS::AveragedTurbineBase< Viscosity >.

Definition at line 70 of file inc_navier_stokes_base.C.

Referenced by GRINS::AveragedTurbineBase< Viscosity >::init_variables().

   {
     this->_dim = system->get_mesh().mesh_dimension();
 
     this->_flow_vars.init(system);
     this->_press_var.init(system);
 
     this->_mu.init(system);
 
     return;
   }

template<class Mu >

void GRINS::IncompressibleNavierStokesBase< Mu >::register_parameter	(	const std::string &	param_name,
		libMesh::ParameterMultiAccessor< libMesh::Number > &	param_pointer
	)		const

virtual

Each subclass will register its copy of an independent.

Reimplemented from GRINS::ParameterUser.

Definition at line 128 of file inc_navier_stokes_base.C.

References GRINS::ParameterUser::register_parameter().

   {
     ParameterUser::register_parameter(param_name, param_pointer);
     _mu.register_parameter(param_name, param_pointer);
   }

template<class Mu >

void GRINS::IncompressibleNavierStokesBase< Mu >::register_variables ( )

private

Definition at line 61 of file inc_navier_stokes_base.C.

References GRINS::GRINSPrivate::VariableWarehouse::check_and_register_variable(), GRINS::VariablesParsing::pressure_section(), and GRINS::VariablesParsing::velocity_section().

Referenced by GRINS::IncompressibleNavierStokesBase< Viscosity >::IncompressibleNavierStokesBase().

   {
     GRINSPrivate::VariableWarehouse::check_and_register_variable(VariablesParsing::pressure_section(),
                                                                  this->_press_var);
     GRINSPrivate::VariableWarehouse::check_and_register_variable(VariablesParsing::velocity_section(),
                                                                  this->_flow_vars);
   }

template<class Mu >

void GRINS::IncompressibleNavierStokesBase< Mu >::set_time_evolving_vars ( libMesh::FEMSystem * system )

virtual

Sets velocity variables to be time-evolving.

Reimplemented from GRINS::Physics.

Reimplemented in GRINS::AveragedTurbineBase< Viscosity >, GRINS::VelocityPenaltyBase< Viscosity >, and GRINS::ParsedVelocitySourceBase< Viscosity >.

Definition at line 89 of file inc_navier_stokes_base.C.

Referenced by GRINS::AveragedTurbineBase< Viscosity >::set_time_evolving_vars().

   {
     const unsigned int dim = system->get_mesh().mesh_dimension();
 
     // Tell the system to march velocity forward in time, but
     // leave p as a constraint only
     system->time_evolving(_flow_vars.u());
     system->time_evolving(_flow_vars.v());
 
     if (dim == 3)
       system->time_evolving(_flow_vars.w());
 
     return;
   }