Innovation & Quality

Classroom training: FINE™/Open

Who should attend

New NUMECA users, engineers and designers.

 

Overview

This training will give you a global overview of FINE™/Open. You will learn how to perform pure high-fidelity simulations with the powerful CFD Flow Integrated Environment dedicated to Multiphysics CFD.

 

 

Next training

  • NOVEMBER 14, 2019

 

Venue: 

NUMECA International offices

Chaussée de la Hulpe 189 Terhulpse Steenweg

1170 Brussels - Belgium

 

If you are interested by any particular advanced topics, let us know in advance so that we can add your specific requirements.

 

To register please send us an email at info@numeca.com.

What you will learn

In the introductory training:

In the advanced training:

  • Supersonic Flows
  • Advanced CHT meshing for complex systems
  • External Aerodynamics
  • Combustion and radiation modeling
  • The heat source and porous media modeling
  • Lagrangian flows /Multispecies

 

Topics covered 

 Introductory training 

 Day 1

                           

  • Introduction: Presentation of NUMECA and introduction to NUMECA software
  • Introduction to HEXPRESS™ (Importation, CAD import, Domain Creation and Manipulation)
  • Mesh generation in HEXPRESS™ (Mesh Initialization & Mesh generation Introduction)
  • Practice 1: Simple domain generation for volute
  • Practice 2: 2D Mesh generation complex gear geometry
  • Practice 3: Rotor & Stator  computation for volute and Impeller ( Importing Autogrid5 structured mesh and coupled with HEXPRESS unstructured mesh)
  • Practice 4: Periodic matching mesh generation
  • Introduction to HEXPRESS™/Hybrid and HEXPRESS™/ Viewer
  • Practice 5: Mesh generation for the exhaust manifold     

 Day 2

 

  • Mesh Generation in HEXPRESS™/Hybrid with advanced features
  • Practice 1: Meshing workshop
  • Introduction  to fully conformal multi-domain meshing in HEXPRESS™/Hybrid (Conjugate heat transfer(CHT) meshes)
  • Practice 2: Full CHT mesh generation for the radiator
  • Introduction to FINE™/Open
  • Project set up in FINE™/Open and introduction to the task manager
  • Introduction to preconditioning  and MultiGrid capabilities
  • Practice 3: Computational setup in FINE™/Open for the exhaust manifold
  • Practice 4: Computational setup in FINE™/Open for Impeller and volute case

 Day 3

  • Turbulence modeling, mesh adaptation, and CPU Booster
  • Introduction CFView™ & Post-treatment of results in CFView™
  • Practice 1: Post processing Exhaust manifold
  • Practice 2: Post processing Impeller and volute case
  • FINE™/Open – Introduction to OpenLabs & computation setup using OpenLabs
  • Practice 3: – Definition of custom initial boundary conditions
  • Practice 4: – Definition of unsteady inlet boundary condition
  • Practice 5: – Creation of new transport equation and modifications of the source terms
 Advanced training

 Optional

 Day 4 and/or Day 5                                         

 Possible topics include:

  • Modeling supersonic flows
  • Dedicated training on external aerodynamics
  • Dedicated training on full conformal mesh generation for complex systems ( CHT meshes)
  • Introduction to Heat Sources modeling and porous media modeling for radiators and condensers
  • Introduction to combustion theory and modeling in FINE™/Open
  • Introduction to Radiation Theory
  • Introduction to Lagrangian flows /Multispecies
  • Any other dedicated training on your case