KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
element_data_utilities.h
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1 // | / |
2 // ' / __| _` | __| _ \ __|
3 // . \ | ( | | ( |\__ `
4 // _|\_\_| \__,_|\__|\___/ ____/
5 // Multi-Physics
6 //
7 // License: BSD License
8 // Kratos default license: kratos/license.txt
9 //
10 // Main authors: Suneth Warnakulasuriya
11 //
12 
13 #if !defined(KRATOS_K_EPSILON_HIGH_RE_ELEMENT_DATA_UTILITIES_H_INCLUDED)
14 #define KRATOS_K_EPSILON_HIGH_RE_ELEMENT_DATA_UTILITIES_H_INCLUDED
15 
16 // System includes
17 
18 // Project includes
20 
21 // Application includes
22 
23 namespace Kratos
24 {
27 
28 namespace KEpsilonElementData
29 {
31  const double Cmu,
32  const double TurbulentKineticEnergy,
33  const double TurbulentEnergyDissipationRate);
34 
35 template <unsigned int TDim>
37  const BoundedMatrix<double, TDim, TDim>& rVelocityGradient,
38  const double TurbulentKinematicViscosity);
39 
40 double CalculateGamma(
41  const double Cmu,
42  const double TurbulentKineticEnergy,
43  const double TurbulentKinematicViscosity);
44 
45 } // namespace KEpsilonElementData
46 
48 
49 } // namespace Kratos
50 
51 #endif
double CalculateGamma(const double Cmu, const double TurbulentKineticEnergy, const double TurbulentKinematicViscosity)
Definition: element_data_utilities.cpp:64
double CalculateProductionTerm(const BoundedMatrix< double, TDim, TDim > &rVelocityGradient, const double TurbulentKinematicViscosity)
Definition: element_data_utilities.cpp:37
double CalculateTurbulentViscosity(const double Cmu, const double TurbulentKineticEnergy, const double TurbulentEnergyDissipationRate)
Definition: element_data_utilities.cpp:28
REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
Definition: mesh_condition.cpp:21