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.
Public Member Functions | Public Attributes | List of all members
fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve Class Reference
Inheritance diagram for fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve:
Collaboration diagram for fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve:

Public Member Functions

def __init__ (self, model, project_parameters)
 
def GetFluidRVEDefaultParameters (cls)
 
def ModifyInitialGeometry (self)
 Here populate the submodelparts to be used for periodicity. More...
 
def ModifyAfterSolverInitialize (self)
 
def ApplyBoundaryConditions (self)
 
def FinalizeSolutionStep (self)
 

Public Attributes

 domain_size
 
 fix_pressure
 
 boundary_mp_name
 
 averaging_mp_name
 
 strains
 
 strain
 
 populate_search_eps
 
 geometrical_search_tolerance
 tolerance in finding which conditions belong to the surface (will be multiplied by the lenght of the diagonal) More...
 
 averaging_mp
 
 max_corner
 
 max_x_face
 
 max_y_face
 
 max_z_face
 
 min_x_face
 
 min_y_face
 
 min_z_face
 

Constructor & Destructor Documentation

◆ __init__()

def fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.__init__ (   self,
  model,
  project_parameters 
)

Member Function Documentation

◆ ApplyBoundaryConditions()

def fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.ApplyBoundaryConditions (   self)

◆ FinalizeSolutionStep()

def fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.FinalizeSolutionStep (   self)

◆ GetFluidRVEDefaultParameters()

def fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.GetFluidRVEDefaultParameters (   cls)

◆ ModifyAfterSolverInitialize()

def fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.ModifyAfterSolverInitialize (   self)

◆ ModifyInitialGeometry()

def fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.ModifyInitialGeometry (   self)

Here populate the submodelparts to be used for periodicity.

Member Data Documentation

◆ averaging_mp

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.averaging_mp

◆ averaging_mp_name

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.averaging_mp_name

◆ boundary_mp_name

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.boundary_mp_name

◆ domain_size

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.domain_size

◆ fix_pressure

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.fix_pressure

◆ geometrical_search_tolerance

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.geometrical_search_tolerance

tolerance in finding which conditions belong to the surface (will be multiplied by the lenght of the diagonal)

◆ max_corner

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.max_corner

◆ max_x_face

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.max_x_face

◆ max_y_face

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.max_y_face

◆ max_z_face

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.max_z_face

◆ min_x_face

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.min_x_face

◆ min_y_face

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.min_y_face

◆ min_z_face

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.min_z_face

◆ populate_search_eps

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.populate_search_eps

◆ strain

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.strain

◆ strains

fluid_dynamics_analysis_rve.FluidDynamicsAnalysisRve.strains

The documentation for this class was generated from the following file: