ERCOFTAC Course
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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 (modelling, computational tools and industrial applications).
It will provide:
- a comprehensive overview of aeroacoustic theories (Lighthill analogy and vortex sound theory, FWH analogy, hybrid approaches, wave extrapolation methods, duct acoustics);
- the issues of the direct computation of aerodynamic noise using CFD methods (Large Eddy Simulation, Lattice-Boltzmann Method).
It will be discussed:
- a number of practical problems involving the coupling between CFD and CAA (e.g. how design a mesh size for aeroacoustics applications, inclusion of mean flow effects via hybrid formulations such as the acoustic perturbation equations, presence of surfaces, aero-acoustic couplings);
- realistic applications performed by the instructors (aeronautics, car industry, propulsion, energy);
- advanced computational aeroacoustics methods, as well as what we can learn from the direct computation of aerodynamic noise, will be presented;
- specific topics reflecting participant interests.
Lecturers:
- Dr Christophe Bogey, Ecole Centrale de Lyon, France, christophe.bogey@ec-lyon.fr
- Pr Gwenael Gabard, LAUM, Le Mans Université, France
- Dr Alois Sengissen, Airbus Avions, France
- Pr Stefan Schoder, TU Graz, Austria, stefan.schoder@tugraz.at
- Pr Wolfgang Schröder, Institute of Aerodynamics, Aachen, Germany
Pilot
Special Interest
Knowledge
ERCOFTAC