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
Derivatives.HyperbolicTangentFluidFractionSolution Class Reference
Collaboration diagram for Derivatives.HyperbolicTangentFluidFractionSolution:

Public Member Functions

def __init__ (self)
 
def VelocityField (self)
 
def DerivativeCalculator (self)
 

Public Attributes

 time
 
 x1
 
 x2
 
 height
 
 b
 
 L
 
 c
 
 mean_alpha
 
 x10
 
 x20
 
 u_char
 
 alpha
 
 f_x1
 
 f_x2
 
 g_t
 
 df_x1
 
 df_x2
 
 u1_codina
 
 u2_codina
 
 u1
 
 u2
 
 du1dt
 
 du2dt
 
 dalphat
 
 alpha1
 
 alpha2
 
 du11
 
 du12
 
 du111
 
 du112
 
 du121
 
 du122
 
 du21
 
 du22
 
 du211
 
 du212
 
 du221
 
 du222
 

Constructor & Destructor Documentation

◆ __init__()

def Derivatives.HyperbolicTangentFluidFractionSolution.__init__ (   self)

Member Function Documentation

◆ DerivativeCalculator()

def Derivatives.HyperbolicTangentFluidFractionSolution.DerivativeCalculator (   self)

◆ VelocityField()

def Derivatives.HyperbolicTangentFluidFractionSolution.VelocityField (   self)

Member Data Documentation

◆ alpha

Derivatives.HyperbolicTangentFluidFractionSolution.alpha

◆ alpha1

Derivatives.HyperbolicTangentFluidFractionSolution.alpha1

◆ alpha2

Derivatives.HyperbolicTangentFluidFractionSolution.alpha2

◆ b

Derivatives.HyperbolicTangentFluidFractionSolution.b

◆ c

Derivatives.HyperbolicTangentFluidFractionSolution.c

◆ dalphat

Derivatives.HyperbolicTangentFluidFractionSolution.dalphat

◆ df_x1

Derivatives.HyperbolicTangentFluidFractionSolution.df_x1

◆ df_x2

Derivatives.HyperbolicTangentFluidFractionSolution.df_x2

◆ du11

Derivatives.HyperbolicTangentFluidFractionSolution.du11

◆ du111

Derivatives.HyperbolicTangentFluidFractionSolution.du111

◆ du112

Derivatives.HyperbolicTangentFluidFractionSolution.du112

◆ du12

Derivatives.HyperbolicTangentFluidFractionSolution.du12

◆ du121

Derivatives.HyperbolicTangentFluidFractionSolution.du121

◆ du122

Derivatives.HyperbolicTangentFluidFractionSolution.du122

◆ du1dt

Derivatives.HyperbolicTangentFluidFractionSolution.du1dt

◆ du21

Derivatives.HyperbolicTangentFluidFractionSolution.du21

◆ du211

Derivatives.HyperbolicTangentFluidFractionSolution.du211

◆ du212

Derivatives.HyperbolicTangentFluidFractionSolution.du212

◆ du22

Derivatives.HyperbolicTangentFluidFractionSolution.du22

◆ du221

Derivatives.HyperbolicTangentFluidFractionSolution.du221

◆ du222

Derivatives.HyperbolicTangentFluidFractionSolution.du222

◆ du2dt

Derivatives.HyperbolicTangentFluidFractionSolution.du2dt

◆ f_x1

Derivatives.HyperbolicTangentFluidFractionSolution.f_x1

◆ f_x2

Derivatives.HyperbolicTangentFluidFractionSolution.f_x2

◆ g_t

Derivatives.HyperbolicTangentFluidFractionSolution.g_t

◆ height

Derivatives.HyperbolicTangentFluidFractionSolution.height

◆ L

Derivatives.HyperbolicTangentFluidFractionSolution.L

◆ mean_alpha

Derivatives.HyperbolicTangentFluidFractionSolution.mean_alpha

◆ time

Derivatives.HyperbolicTangentFluidFractionSolution.time

◆ u1

Derivatives.HyperbolicTangentFluidFractionSolution.u1

◆ u1_codina

Derivatives.HyperbolicTangentFluidFractionSolution.u1_codina

◆ u2

Derivatives.HyperbolicTangentFluidFractionSolution.u2

◆ u2_codina

Derivatives.HyperbolicTangentFluidFractionSolution.u2_codina

◆ u_char

Derivatives.HyperbolicTangentFluidFractionSolution.u_char

◆ x1

Derivatives.HyperbolicTangentFluidFractionSolution.x1

◆ x10

Derivatives.HyperbolicTangentFluidFractionSolution.x10

◆ x2

Derivatives.HyperbolicTangentFluidFractionSolution.x2

◆ x20

Derivatives.HyperbolicTangentFluidFractionSolution.x20

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