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
compute_lift_process.ComputeLiftProcess Class Reference
Inheritance diagram for compute_lift_process.ComputeLiftProcess:
Collaboration diagram for compute_lift_process.ComputeLiftProcess:

Public Member Functions

def __init__ (self, Model, settings)
 
def ExecuteFinalizeSolutionStep (self)
 

Public Attributes

 body_model_part
 
 compute_far_field_forces
 
 far_field_model_part
 
 compute_lift_from_jump_3d
 
 trailing_edge_model_part
 
 fluid_model_part
 
 reference_area
 
 mean_aerodynamic_chord
 
 moment_reference_point
 
 is_infinite_wing
 
 free_stream_velocity_norm
 
 wake_direction
 
 wake_normal
 
 span_direction
 
 moment_coefficient
 
 lift_coefficient_jump
 
 drag_coefficient_jump
 
 te
 
 lift_coefficient_far_field
 
 drag_coefficient_far_field
 
 lateral_force_coefficient_far_field
 
 lift_coefficient
 
 drag_coefficient
 
 lateral_force_coefficient
 

Constructor & Destructor Documentation

◆ __init__()

def compute_lift_process.ComputeLiftProcess.__init__ (   self,
  Model,
  settings 
)

Member Function Documentation

◆ ExecuteFinalizeSolutionStep()

def compute_lift_process.ComputeLiftProcess.ExecuteFinalizeSolutionStep (   self)

Member Data Documentation

◆ body_model_part

compute_lift_process.ComputeLiftProcess.body_model_part

◆ compute_far_field_forces

compute_lift_process.ComputeLiftProcess.compute_far_field_forces

◆ compute_lift_from_jump_3d

compute_lift_process.ComputeLiftProcess.compute_lift_from_jump_3d

◆ drag_coefficient

compute_lift_process.ComputeLiftProcess.drag_coefficient

◆ drag_coefficient_far_field

compute_lift_process.ComputeLiftProcess.drag_coefficient_far_field

◆ drag_coefficient_jump

compute_lift_process.ComputeLiftProcess.drag_coefficient_jump

◆ far_field_model_part

compute_lift_process.ComputeLiftProcess.far_field_model_part

◆ fluid_model_part

compute_lift_process.ComputeLiftProcess.fluid_model_part

◆ free_stream_velocity_norm

compute_lift_process.ComputeLiftProcess.free_stream_velocity_norm

◆ is_infinite_wing

compute_lift_process.ComputeLiftProcess.is_infinite_wing

◆ lateral_force_coefficient

compute_lift_process.ComputeLiftProcess.lateral_force_coefficient

◆ lateral_force_coefficient_far_field

compute_lift_process.ComputeLiftProcess.lateral_force_coefficient_far_field

◆ lift_coefficient

compute_lift_process.ComputeLiftProcess.lift_coefficient

◆ lift_coefficient_far_field

compute_lift_process.ComputeLiftProcess.lift_coefficient_far_field

◆ lift_coefficient_jump

compute_lift_process.ComputeLiftProcess.lift_coefficient_jump

◆ mean_aerodynamic_chord

compute_lift_process.ComputeLiftProcess.mean_aerodynamic_chord

◆ moment_coefficient

compute_lift_process.ComputeLiftProcess.moment_coefficient

◆ moment_reference_point

compute_lift_process.ComputeLiftProcess.moment_reference_point

◆ reference_area

compute_lift_process.ComputeLiftProcess.reference_area

◆ span_direction

compute_lift_process.ComputeLiftProcess.span_direction

◆ te

compute_lift_process.ComputeLiftProcess.te

◆ trailing_edge_model_part

compute_lift_process.ComputeLiftProcess.trailing_edge_model_part

◆ wake_direction

compute_lift_process.ComputeLiftProcess.wake_direction

◆ wake_normal

compute_lift_process.ComputeLiftProcess.wake_normal

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