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Financement de l’UE (1 799 810 €) : Méthodologies et technologies innovantes pour réduire la production et les émissions de bruit des avions Hor02/03/2016 Programme de recherche et d'innovation de l'UE « Horizon »

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Texte

Méthodologies et technologies innovantes pour réduire la production et les émissions de bruit des avions

The proposed project, IMAGE, is relevant to Topic MG-1.10-2015, aiming to enhance the EU-China collaborative effort focusing on “Innovative methods and numerical technologies for airframe and engine noise reduction”. The project consortium consists of 12 partners. The purpose of IMAGE is to investigate experimentally and numerically innovative airframe and engine noise-reduction technologies and, in a systematic conjunction, to develop robust methodologies of addressing these technologies. Airframe noise is addressed by tackling landing gears and high-lift devices, and engine noise through its fan component. Fundamental investigations of three key control strategies are carried out: plasma actuation, turbulence screens and innovative porous materials, on a platform of three configurations, relevant to airframe and aero-engine noise generation and control, including a wing mock-up, tandem cylinder and engine-fan duct. Beyond this, IMAGE explores further the installation effect of aeroacoustic engine-jet/wing interaction with a simplified configuration, as well as low-noise concepts and optimal noise-actuation methods by means of aeroacoustic optimization. The project will conclude a comprehensive understanding of the physical mechanisms concerning flow-induced airframe and engine-fan noise generation, propagation and control, and of further improvement of beam-forming technology and noise source identification in aero-acoustic experimental analysis. The experiment will generate well-documented database, supporting the development of numerical modelling and simulation methodologies for reliable validation and verification. To this end, with technical synthesis and industrial assessment, the noise control methods will be optimized and be facilitated towards potential industrial use, and the methodologies developed should form a robust part of advanced tools in industrial practice.
Airbus Defence AND Space GmbH 50 000 €
Cadence Design Systems Belgium 170 313 €
Centre Internacional de Metodes Numerics en Enginyeria 190 000 €
CFD Software - Entwicklungs-UND Forschungsgesellschaft mbH 210 000 €
Chalmers Tekniska Hogskola AB 275 063 €
Kungliga Tekniska Hoegskolan 140 000 €
Office National d'Etudes et de Recherches Aerospatiales 160 075 €
Rheinisch-Westfaelische Technische Hochschule Aachen 74 900 €
Rheinland-Pfalzische Technische Universitat 74 953 €
Stichting Koninklijk Nederlands Lucht - EN Ruimtevaartcentrum 159 508 €
Universidad Politecnica de Madrid 80 000 €
VON Karman Institute for Fluid Dynamics 215 000 €

https://cordis.europa.eu/project/id/688971

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