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.
rubinow_and_keller_lift_law.h
Go to the documentation of this file.
1 // Author: Guillermo Casas (gcasas@cimne.upc.edu)
2 // Date: February 2019
3 // Saffman (1965, 1968)
4 
5 #if !defined(SDEM_RUBINOW_AND_KELLER_LIFT_LAW_H_INCLUDED)
6 #define SDEM_RUBINOW_AND_KELLER_LIFT_LAW_H_INCLUDED
7 
8 #include "rotation_induced_lift_law.h"
9 
10 namespace Kratos {
11 
12  class KRATOS_API(SWIMMING_DEM_APPLICATION) RubinowAndKellerLiftLaw : public RotationInducedLiftLaw {
13 
14  public:
15  typedef Node NodeType;
16  KRATOS_CLASS_POINTER_DEFINITION(RubinowAndKellerLiftLaw);
17 
18  // TODO: make mDoApplyFaxenCorrections an option
19  RubinowAndKellerLiftLaw(){}
20 
21  RubinowAndKellerLiftLaw(Parameters r_parameters);
22 
23  ~RubinowAndKellerLiftLaw(){}
24 
25  RotationInducedLiftLaw::Pointer Clone() const override;
26 
27  void Initialize(const ProcessInfo& r_process_info) override;
28 
29  std::string GetTypeOfLaw() override;
30 
31  void ComputeForce(Geometry<Node >& r_geometry,
32  const double reynolds_number,
33  double particle_radius,
34  double fluid_density,
35  double fluid_kinematic_viscosity,
36  array_1d<double, 3>& minus_slip_velocity,
37  array_1d<double, 3>& rotation_induced_lift,
38  const ProcessInfo& r_current_process_info) override;
39 
40  private:
41 
42  friend class Serializer;
43 
44  virtual void save(Serializer& rSerializer) const override {
45  KRATOS_SERIALIZE_SAVE_BASE_CLASS(rSerializer, RotationInducedLiftLaw)
46  }
47 
48  virtual void load(Serializer& rSerializer) override {
49  KRATOS_SERIALIZE_LOAD_BASE_CLASS(rSerializer, RotationInducedLiftLaw)
50  }
51 
52  }; //class RubinowAndKellerLiftLaw
53 
54 } // Namespace Kratos
55 
56 #endif /* SDEM_RUBINOW_AND_KELLER_LIFT_LAW_H_INCLUDED defined */
Kratos::Geometry
Geometry base class.
Definition: geometry.h:71
Kratos::Node
This class defines the node.
Definition: node.h:65
Kratos::Parameters
This class provides to Kratos a data structure for I/O based on the standard of JSON.
Definition: kratos_parameters.h:59
Kratos::ProcessInfo
ProcessInfo holds the current value of different solution parameters.
Definition: process_info.h:59
Kratos::RotationInducedLiftLaw
Definition: rotation_induced_lift_law.h:16
Kratos::RubinowAndKellerLiftLaw
Definition: rubinow_and_keller_lift_law.h:12
Kratos::RubinowAndKellerLiftLaw::~RubinowAndKellerLiftLaw
~RubinowAndKellerLiftLaw()
Definition: rubinow_and_keller_lift_law.h:23
Kratos::RubinowAndKellerLiftLaw::KRATOS_CLASS_POINTER_DEFINITION
KRATOS_CLASS_POINTER_DEFINITION(RubinowAndKellerLiftLaw)
Kratos::RubinowAndKellerLiftLaw::NodeType
Node NodeType
Definition: rubinow_and_keller_lift_law.h:15
Kratos::RubinowAndKellerLiftLaw::RubinowAndKellerLiftLaw
RubinowAndKellerLiftLaw()
Definition: rubinow_and_keller_lift_law.h:19
Kratos::Serializer
The serialization consists in storing the state of an object into a storage format like data file or ...
Definition: serializer.h:123
Kratos::array_1d< double, 3 >
KRATOS_SERIALIZE_SAVE_BASE_CLASS
#define KRATOS_SERIALIZE_SAVE_BASE_CLASS(Serializer, BaseType)
Definition: define.h:812
KRATOS_SERIALIZE_LOAD_BASE_CLASS
#define KRATOS_SERIALIZE_LOAD_BASE_CLASS(Serializer, BaseType)
Definition: define.h:815
Kratos
REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
Definition: mesh_condition.cpp:21
ode_solve.load
def load(f)
Definition: ode_solve.py:307
rotation_induced_lift_law.h
Generated on Sat Feb 3 2024 02:26:04 for KratosMultiphysics by doxygen 1.9.1