# Kazem

(Difference between revisions)
 Revision as of 15:04, 24 July 2013 (view source)Kazem (Talk | contribs) (→Elements)← Older edit Revision as of 15:04, 24 July 2013 (view source)Kazem (Talk | contribs) (→Elements)Newer edit → Line 54: Line 54: ==== Elements ==== ==== Elements ==== 3D: Linear  tetrahedral elements (It works just in 3D) 3D: Linear  tetrahedral elements (It works just in 3D) − *Element name: '''DPGVMS''': Discontinuous Pressure Gradiant with Variational Multi Scale technique + *Element name: '''DPGVMS'''( Discontinuous Pressure Gradiant with Variational Multi Scale technique) ==== Boundary conditions ==== ==== Boundary conditions ====

## Multifluid module

### Introduction

Examples showing the class of problems that the code can solve (2-4 examples)

Brief description of wat the model means, eventually insert link to the benchmark section...or whatever...

Brief description of what the model means
Brief description of what the model means
Brief description of what the model means

• Solves the Navier-Stokes equations for a multi-fluid system considering large jumps in density .
• Tractions are considered continuous at the interface and therefore no jump in viscosity is considered.
• Level Set method is used to determine the interface position at each step.
• Local pressure enrichmnet is considered at the cutted element to capture the discontinuous pressure gradient.

### Technical descriptions

#### Fluid types

• Incompressible fluid

Constitutive laws

• Newtonian

#### Kinematic approaches

• Eulerian
• With free surface (level set)

#### Solution strategy

• Monolithic

Residual based Newton Raphson strategy is exploited to treat nonlinearities.

#### Elements

3D: Linear tetrahedral elements (It works just in 3D)

• Element name: DPGVMS( Discontinuous Pressure Gradiant with Variational Multi Scale technique)

#### Boundary conditions

• Velocity boundary condition: Inlet of water
• Pressure boundary condition: Pressure can be imposed strongly or weakly...
• Wall boundary condition:
• Slip/no slip boundary condition
• Wall law
• Flag variable?????

#### Initial conditions

Zero of the Level set has to be assigned as the initial condition by assigning + and - Distance flag.

#### Turbulence models

All turbulance models inside KRATOS can be used:

• Smagorinsky-Lily
• Spalart-Allmaras

#### HPC

The code can be run in shared or distributed memory:

• OpenMP:
• MPI: