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
cubic_law.ProblemParameters Class Reference
Collaboration diagram for cubic_law.ProblemParameters:

Public Member Functions

def __init__ (self)
 
def SetNonGeometricParameters (self, a, rho_p, rho_f, nu, gz)
 
def PrintParameters (self)
 

Public Attributes

 L0
 
 H0
 
 U0
 
 epsilon
 
 A1
 
 A2
 
 DeltaX
 
 n_points
 
 n_streamlines
 
 n_periods
 
 Omega
 
 n_particles
 
 delta_0
 
 alpha
 
 gamma
 
 cos_semi_alpha
 
 sin_semi_alpha
 
 eta_values
 
 randoms_horizontal
 
 randoms_vertical
 
 vels_horizontal
 
 vels_vertical
 
 accelerations_horizontal
 
 accelerations_vertical
 
 x_points
 
 phi_1
 
 phi_2
 
 delta_alpha
 
 h3
 
 J_h
 
 J_phi
 
 J_phi_h
 
 beta
 
 plot_arrows
 
 a
 
 rho
 
 nu
 
 R
 
 tau
 
 Fr
 
 Gz
 
 gamma_z
 
 h_and_phi_function
 

Constructor & Destructor Documentation

◆ __init__()

def cubic_law.ProblemParameters.__init__ (   self)

Member Function Documentation

◆ PrintParameters()

def cubic_law.ProblemParameters.PrintParameters (   self)

◆ SetNonGeometricParameters()

def cubic_law.ProblemParameters.SetNonGeometricParameters (   self,
  a,
  rho_p,
  rho_f,
  nu,
  gz 
)

Member Data Documentation

◆ a

cubic_law.ProblemParameters.a

◆ A1

cubic_law.ProblemParameters.A1

◆ A2

cubic_law.ProblemParameters.A2

◆ accelerations_horizontal

cubic_law.ProblemParameters.accelerations_horizontal

◆ accelerations_vertical

cubic_law.ProblemParameters.accelerations_vertical

◆ alpha

cubic_law.ProblemParameters.alpha

◆ beta

cubic_law.ProblemParameters.beta

◆ cos_semi_alpha

cubic_law.ProblemParameters.cos_semi_alpha

◆ delta_0

cubic_law.ProblemParameters.delta_0

◆ delta_alpha

cubic_law.ProblemParameters.delta_alpha

◆ DeltaX

cubic_law.ProblemParameters.DeltaX

◆ epsilon

cubic_law.ProblemParameters.epsilon

◆ eta_values

cubic_law.ProblemParameters.eta_values

◆ Fr

cubic_law.ProblemParameters.Fr

◆ gamma

cubic_law.ProblemParameters.gamma

◆ gamma_z

cubic_law.ProblemParameters.gamma_z

◆ Gz

cubic_law.ProblemParameters.Gz

◆ H0

cubic_law.ProblemParameters.H0

◆ h3

cubic_law.ProblemParameters.h3

◆ h_and_phi_function

cubic_law.ProblemParameters.h_and_phi_function

◆ J_h

cubic_law.ProblemParameters.J_h

◆ J_phi

cubic_law.ProblemParameters.J_phi

◆ J_phi_h

cubic_law.ProblemParameters.J_phi_h

◆ L0

cubic_law.ProblemParameters.L0

◆ n_particles

cubic_law.ProblemParameters.n_particles

◆ n_periods

cubic_law.ProblemParameters.n_periods

◆ n_points

cubic_law.ProblemParameters.n_points

◆ n_streamlines

cubic_law.ProblemParameters.n_streamlines

◆ nu

cubic_law.ProblemParameters.nu

◆ Omega

cubic_law.ProblemParameters.Omega

◆ phi_1

cubic_law.ProblemParameters.phi_1

◆ phi_2

cubic_law.ProblemParameters.phi_2

◆ plot_arrows

cubic_law.ProblemParameters.plot_arrows

◆ R

cubic_law.ProblemParameters.R

◆ randoms_horizontal

cubic_law.ProblemParameters.randoms_horizontal

◆ randoms_vertical

cubic_law.ProblemParameters.randoms_vertical

◆ rho

cubic_law.ProblemParameters.rho

◆ sin_semi_alpha

cubic_law.ProblemParameters.sin_semi_alpha

◆ tau

cubic_law.ProblemParameters.tau

◆ U0

cubic_law.ProblemParameters.U0

◆ vels_horizontal

cubic_law.ProblemParameters.vels_horizontal

◆ vels_vertical

cubic_law.ProblemParameters.vels_vertical

◆ x_points

cubic_law.ProblemParameters.x_points

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