GRINS-0.8.0
heat_conduction.h
Go to the documentation of this file.
1 //-----------------------------------------------------------------------bl-
2 //--------------------------------------------------------------------------
3 //
4 // GRINS - General Reacting Incompressible Navier-Stokes
5 //
6 // Copyright (C) 2014-2017 Paul T. Bauman, Roy H. Stogner
7 // Copyright (C) 2010-2013 The PECOS Development Team
8 //
9 // This library is free software; you can redistribute it and/or
10 // modify it under the terms of the Version 2.1 GNU Lesser General
11 // Public License as published by the Free Software Foundation.
12 //
13 // This library is distributed in the hope that it will be useful,
14 // but WITHOUT ANY WARRANTY; without even the implied warranty of
15 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 // Lesser General Public License for more details.
17 //
18 // You should have received a copy of the GNU Lesser General Public
19 // License along with this library; if not, write to the Free Software
20 // Foundation, Inc. 51 Franklin Street, Fifth Floor,
21 // Boston, MA 02110-1301 USA
22 //
23 //-----------------------------------------------------------------------el-
24 
25 #ifndef GRINS_HEAT_CONDUCTION_H
26 #define GRINS_HEAT_CONDUCTION_H
27 
28 // GRINS
29 #include "grins/physics.h"
30 #include "grins/single_variable.h"
31 
32 namespace GRINS
33 {
34 
35  template<class Conductivity>
36  class HeatConduction : public Physics
37  {
38 
39  public:
40 
41  HeatConduction( const GRINS::PhysicsName& physics_name, const GetPot& input );
42  ~HeatConduction(){};
43 
44  virtual void set_time_evolving_vars( libMesh::FEMSystem* system );
45 
47  virtual void init_context( AssemblyContext& context );
48 
49  // residual and jacobian calculations
50  // element_*, side_* as *time_derivative, *constraint, *mass_residual
51 
53  virtual void element_time_derivative( bool compute_jacobian,
54  AssemblyContext& context );
55 
56  virtual void mass_residual( bool compute_jacobian,
57  AssemblyContext & context );
58 
59  // Registers all parameters in this physics and in its property
60  // classes
61  virtual void register_parameter
62  ( const std::string & param_name,
63  libMesh::ParameterMultiAccessor<libMesh::Number> & param_pointer )
64  const;
65 
66  protected:
67 
68  PrimitiveTempFEVariables& _temp_vars;
69 
70  libMesh::Number _rho, _Cp;
71 
73  Conductivity _k;
74 
75  private:
76 
77  HeatConduction();
78 
79  };
80 
81 } // namespace GRINS
82 
83 #endif // GRINS_HEAT_CONDUCTION_H
GRINS::HeatConduction::_Cp
libMesh::Number _Cp
Definition: heat_conduction.h:70
GRINS::HeatConduction::_temp_vars
PrimitiveTempFEVariables & _temp_vars
Definition: heat_conduction.h:68
GRINS::HeatConduction::mass_residual
virtual void mass_residual(bool compute_jacobian, AssemblyContext &context)
Mass matrix part(s) for element interiors. All boundary terms lie within the time_derivative part...
Definition: heat_conduction.C:161
GRINS::Physics
Physics abstract base class. Defines API for physics to be added to MultiphysicsSystem.
Definition: physics.h:106
GRINS::HeatConduction::_rho
libMesh::Number _rho
Definition: heat_conduction.h:70
GRINS::HeatConduction::element_time_derivative
virtual void element_time_derivative(bool compute_jacobian, AssemblyContext &context)
Time dependent part(s) of physics for element interiors.
Definition: heat_conduction.C:90
GRINS::HeatConduction::register_parameter
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.
Definition: heat_conduction.C:220
GRINS
GRINS namespace.
Definition: arrhenius_catalycity.h:31
GRINS::PhysicsName
std::string PhysicsName
Definition: physics_naming.h:33
GRINS::HeatConduction::init_context
virtual void init_context(AssemblyContext &context)
Initialize context for added physics variables.
Definition: heat_conduction.C:72
GRINS::HeatConduction::set_time_evolving_vars
virtual void set_time_evolving_vars(libMesh::FEMSystem *system)
Set which variables are time evolving.
Definition: heat_conduction.C:65
single_variable.h
GRINS::HeatConduction::_k
Conductivity _k
Conductivity.
Definition: heat_conduction.h:73
Generated on Tue Dec 19 2017 12:47:27 for GRINS-0.8.0 by  doxygen 1.8.9.1