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
apply_far_field_process.ApplyFarFieldProcess Class Reference

All the processes python should be derived from "Process". More...

Inheritance diagram for apply_far_field_process.ApplyFarFieldProcess:
Collaboration diagram for apply_far_field_process.ApplyFarFieldProcess:

Public Member Functions

def __init__ (self, Model, settings)
 
def ExecuteInitializeSolutionStep (self)
 
def Execute (self)
 

Public Attributes

 far_field_model_part
 
 fluid_model_part
 
 angle_of_attack
 
 free_stream_mach
 
 density_inf
 
 free_stream_speed_of_sound
 
 heat_capacity_ratio
 
 inlet_potential_0
 
 mach_number_limit
 
 mach_number_squared_limit
 
 critical_mach
 
 upwind_factor_constant
 
 initialize_flow_field
 
 perturbation_field
 
 u_inf
 
 free_stream_velocity
 
 domain_size
 
 free_stream_velocity_direction
 

Detailed Description

All the processes python should be derived from "Process".

Constructor & Destructor Documentation

◆ __init__()

def apply_far_field_process.ApplyFarFieldProcess.__init__ (   self,
  Model,
  settings 
)

Member Function Documentation

◆ Execute()

def apply_far_field_process.ApplyFarFieldProcess.Execute (   self)

◆ ExecuteInitializeSolutionStep()

def apply_far_field_process.ApplyFarFieldProcess.ExecuteInitializeSolutionStep (   self)

Member Data Documentation

◆ angle_of_attack

apply_far_field_process.ApplyFarFieldProcess.angle_of_attack

◆ critical_mach

apply_far_field_process.ApplyFarFieldProcess.critical_mach

◆ density_inf

apply_far_field_process.ApplyFarFieldProcess.density_inf

◆ domain_size

apply_far_field_process.ApplyFarFieldProcess.domain_size

◆ far_field_model_part

apply_far_field_process.ApplyFarFieldProcess.far_field_model_part

◆ fluid_model_part

apply_far_field_process.ApplyFarFieldProcess.fluid_model_part

◆ free_stream_mach

apply_far_field_process.ApplyFarFieldProcess.free_stream_mach

◆ free_stream_speed_of_sound

apply_far_field_process.ApplyFarFieldProcess.free_stream_speed_of_sound

◆ free_stream_velocity

apply_far_field_process.ApplyFarFieldProcess.free_stream_velocity

◆ free_stream_velocity_direction

apply_far_field_process.ApplyFarFieldProcess.free_stream_velocity_direction

◆ heat_capacity_ratio

apply_far_field_process.ApplyFarFieldProcess.heat_capacity_ratio

◆ initialize_flow_field

apply_far_field_process.ApplyFarFieldProcess.initialize_flow_field

◆ inlet_potential_0

apply_far_field_process.ApplyFarFieldProcess.inlet_potential_0

◆ mach_number_limit

apply_far_field_process.ApplyFarFieldProcess.mach_number_limit

◆ mach_number_squared_limit

apply_far_field_process.ApplyFarFieldProcess.mach_number_squared_limit

◆ perturbation_field

apply_far_field_process.ApplyFarFieldProcess.perturbation_field

◆ u_inf

apply_far_field_process.ApplyFarFieldProcess.u_inf

◆ upwind_factor_constant

apply_far_field_process.ApplyFarFieldProcess.upwind_factor_constant

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