Advanced Lattice Boltzmann Methods
Cerfacs is Qualiopi certified for its training activities
Duration : 1 day / (6 hours)
In May 2023, 100% of participants were very satisfied
(results collected from 2 respondents out of 8 participants, a response rate of 25%)
This lecture aims at providing the audience with an additional knowledge of methods based on Discrete Velocity Boltzmann Equations, with a particular emphasis on Lattice-Boltzmann Methods. Key elements of discretization and time integration will be discussed, along with classical CFD topics such as boundary conditions, turbulence modeling, accounting for compressibility effects, acoustic wave propagation. Illustration of the methods on academic and industrial flow configurations will be shown.
Objective of the training
To provide the audience with advanced knowledge about physical models and numerical methods that are the core of main LBM softwares.
On completion of this course, you will be able to :
- select an adequate LBM method to handle a given physical problem,
- to design adequate computational grid to get reliable results,
- to select relevant physical sub models (e.g. turbulence models, wall models) to get reliable results,
The training is an alternation of theoretical presentations and practical work. A multiple choice question allows the final evaluation. The training room is equipped with computers, the work can be done in sub-groups of two people.
Referent teacher: Jean-François Boussuge
PhD students, engineers, researchers
Prerequisites and registration
In order to follow this course, you need to have followed the session “Implementation and use of the Lattice Boltzmann Method” organized by Cerfacs.
The training can take place in French or English dependin on the audience, level B2 of the CEFR is required.
Before signing up, you may wish to report us any particular constraints (schedules, health, unavailability…) at the following e-mail address : email@example.com
- Trainees/PhDs/PostDocs : 96 € excl. tax
- CERFACS shareholders/CNRS/INRIA : 240 € excl. tax
- Public : 480 € excl. tax
09:00-10:15: From DVBE to LBM and other methods
10:30-12:15: Main features of LBM: dispersive and dissipative error, stability
14:00-15:15: Boundary conditions, turbulence modeling within LBM framework
15:30-16:45: Extension to thermal and fully compressible models
Evaluation of learning
A final exam will be conducted during the training.