Rationale
This course is intended for researchers in industry and in
academia including Ph.D. students with a good knowledge in
fluid mechanics, who would like to build up or widen their
knowledge in the field of aeroacoustics (modeling,
computational tools and industrial applications).
It will first provide a comprehensive overview of recent
insights of aeroacoustics theories (practical applications
of Lighthills analogy and vortex sound, Goldsteins analogy,
and coupling with instability waves).
Scope
A number of practical problems involving the coupling
between CFDs results and CAA will be also thoroughly
discussed (e.g. how to design a mesh for aeroacoustics
simulations using large eddy simulation, inclusion of mean
flow effects via hybrid formulations such as APE, presence
of surfaces,...) and realistic applications performed by the
instructors (aeronautics, car industry, propulsion,
energy,...) will be analysed.
Moreover, advanced computational aeroacoustics methods will
be presented, as well as what we can learn from the direct
computation of aerodynamic noise. Specific topics reflecting
participant interests will be discussed in a final round
table session.
Lecturers
=========
Prof. Anurag Agarwal, University of Cambridge, UK
Prof. Christophe Bailly, Ecole Centrale de Lyon, France
Dr Christophe Bogey, Ecole Centrale de Lyon, France
Prof. Christophe Schram, Institute von Karman, Belgium
Prof. Wolfgang Schroder, Institute of Aerodynamics, Aachen,
Germany
Dr. Gwenael Gabard, University of Southampton, UK
Registraton
===========
http://www.ercoftac.org/purchases/registration_for_computati
onal_aeroacoustics/
|