Cerfacs Enter the world of high performance ...

The 17 January 2022

Modal analysis of thermoacoustic instabilities using the AVSP solver

nasri |  

Announced
Deadline for registration: 15 days before the starting date of each training
Duration : 1 day / (6 hours)

Due to health constraints, the training will be held online

Before signing up, you may wish to report us any particular constraints (schedules, health, unavailability…)

at the following e-mail address : training@cerfacs.fr

Satisfaction index

In March 2021, 100% of participants in this training were very satisfied

(results collected from 6 respondents out of 8 participants, a response rate of 75%)

Abstract

The thermoacoustic AVSP code developed at Cerfacs is a general purpose Helmholtz solver which computes the frequency of oscillation, growth rate and spatial structure of the thermoacoustic modes of interest. Several test cases are considered during this one day training session in order to get the participants acquainted with the different features of AVSP (speed of sound inhomogeneities, complex valued boundary impedance, multi-perforated liners, acoustic flame coupling, multi-burner annular combustors, …).

Objective of the training

This training session aims at teaching to the partcipants the basics of combustion instabilities as well as how to use the thermoacoustic AVSP code.

Learning outcomes

On completion of this training course, you will be able to :

  • master the different features AVSP solver
  • use the AVSP solver.

Teaching methods

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.

Target participants

This training session is for engineers, physicists, computer scientists and numerical analysts who wish to learn on thermoacoustic instabilities.

Prerequisites and registration

In order to follow this course, you need to be able to:

  • use basic Linux commands (changing a directory, removing a file, …)
  • perform elementary operations on complex numbers (conjugate, polar form, …) and use Euler’s formula,
  • explain physical properties of waves (frequency, pulsation, wave number, …)
  • use basic notions of acoustic impedance
  • the training can take place in French or English depending on the audience, level B2 of CEFR is required;

In order to verify that the prerequisites are satisfied, the following questionnaire must be completed. You need to get at least 75% of correct answers in order to be authorized to follow this training session. If you don’t succeed it, your subscription will not be validated. You only have two chances to complete them.

Questionnaire 1 : https://forms.gle/6cCKwtESmBybhV8Q6

After completing the pre-requisite tests and obtaining at least 75% correct answers, you can register:

Pre-registration

Referent teacher: Davide Laera

Fee

  • Trainees/PhDs/PostDocs : 96 € excl. tax
  • CERFACS shareholders/CNRS/INRIA : 240 € excl. tax
  • Public : 480 € excl. tax

Program

(from 9h15 to 17h)
9h15 Welcome and coffee
9h30 Modeling thermoacoustic instabilities -Introduction

  • Equations of linear acoustics,
  • Modeling of the flame

10h15 How does AVSP work ?

  • Files
  • general organization
  • boundary conditions

11h00 Tutorials

  • 1D pipe (without and with impedance),
  • multiperforated cylinder,
  • 1D pipe with an active flame.

14h00 Following tutorials

  • 2D and 3D configurations with sudden enlargement,
  • complex geometries and post-processing,
  • industrial configurations (one single sector).

Evaluation of learning

A final exam will be conducted during the training session.

NEWS

Happy New Year

nasri |  3 January 2022

Read more


Video presentation of the NextSim EuroHPC project

CERFACS |  14 December 2021

The video presentation of the NextSim project has just been released : CERFACS is involved in the NextSim project (). The primary objective is to increase the capabilities of Computational Fluid Dynamics tools on extreme-scale parallel computing platforms for aeronautical design. This project has received funding from the European High-Performance Computing Joint Undertaking (JU) under grant agreement N° 956104. The JU receives support from the European Union’s Horizon 2020 research and innovation programme and Spain, France, Germany. This project has received funding from the Agence Nationale de la Recherche (ANR) under grant agreement N° ANR-20-EHPC-0002-02. For more information, please visit Read more

ALL NEWS