5 #if !defined(SDEM_RUBINOW_AND_KELLER_LIFT_LAW_H_INCLUDED)
6 #define SDEM_RUBINOW_AND_KELLER_LIFT_LAW_H_INCLUDED
25 RotationInducedLiftLaw::Pointer Clone()
const override;
27 void Initialize(
const ProcessInfo& r_process_info)
override;
29 std::string GetTypeOfLaw()
override;
32 const double reynolds_number,
33 double particle_radius,
35 double fluid_kinematic_viscosity,
38 const ProcessInfo& r_current_process_info)
override;
44 virtual void save(
Serializer& rSerializer)
const override {
Geometry base class.
Definition: geometry.h:71
This class defines the node.
Definition: node.h:65
This class provides to Kratos a data structure for I/O based on the standard of JSON.
Definition: kratos_parameters.h:59
ProcessInfo holds the current value of different solution parameters.
Definition: process_info.h:59
Definition: rotation_induced_lift_law.h:16
Definition: rubinow_and_keller_lift_law.h:12
~RubinowAndKellerLiftLaw()
Definition: rubinow_and_keller_lift_law.h:23
KRATOS_CLASS_POINTER_DEFINITION(RubinowAndKellerLiftLaw)
Node NodeType
Definition: rubinow_and_keller_lift_law.h:15
RubinowAndKellerLiftLaw()
Definition: rubinow_and_keller_lift_law.h:19
The serialization consists in storing the state of an object into a storage format like data file or ...
Definition: serializer.h:123
#define KRATOS_SERIALIZE_SAVE_BASE_CLASS(Serializer, BaseType)
Definition: define.h:812
#define KRATOS_SERIALIZE_LOAD_BASE_CLASS(Serializer, BaseType)
Definition: define.h:815
REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
Definition: mesh_condition.cpp:21
def load(f)
Definition: ode_solve.py:307