Descripción del proyecto
La aeroelasticidad, aeroacústica y aerodinámica inestables de los motores a reacción
La tecnología del motor de los aviones no ha dejado de evolucionar en los últimos decenios y la reducción del combustible consumido ha sido la fuerza motriz que ha impulsado su progreso. Cada vez hay más pruebas que indican que la inestabilidad de la aerodinámica, la aeroacústica y la aeroelasticidad está limitando el potencial de las tecnologías de motores a reacción. El proyecto CATANA, financiado con fondos europeos, se propone arrojar luz sobre la naturaleza de estas inestabilidades físicas. El proyecto realizará experimentos que permitirán mediciones síncronas de los fenómenos aerodinámicos, dinámico-estructurales y acústicos. Los estudios sobre el desajuste estructural y la geometría de admisión permitirán a los investigadores cuantificar la sensibilidad de los mecanismos de inestabilidad. Los institutos participantes cuestionarán los conocimientos existentes en el ámbito y ofrecerán un punto de referencia para futuros estudios sobre unos motores a reacción eficaces.
Objetivo
There is increasing evidence that today’s turbojet technology is limited by instabilities arising from non-linear coupling between aerodynamic, aeroelastic and aeroacoustic phenomena. These multi-physical processes are going to become even more important in future architectures, which utilize Ultra-High-Bypass Ratio and lightweight composite fan designs to reduce greenhouse gas emissions and noise. However, enormous knowledge gaps currently exist concerning these processes and the resulting stability boundaries.
To fill these gaps, and to promote the development of efficient and quiet concepts, a comprehensive research programme will be carried out in Project CATANA. The programme will provide an open-test-case fan stage and employ unprecedented instrumentation to perform extensive investigations into the nature of multi-physical instabilities. The carbon-fibre fan stage is currently being developed at Ecole Centrale de Lyon and will be aerodynamically and structurally representative of near future low-speed fans.
Multi-physical experiments are planned which allow transient investigations with synchronous measurements of aerodynamic, structure-dynamic and acoustic phenomena.
The research concept combines complementary measurement systems and enables the detection of interactive mechanisms where individual systems are insufficient.
To improve the coherence of the aeroelastic results, a study on structural mistuning and intake geometry will be carried out to understand and quantify the sensitivity of occurring instability mechanisms. The database will be completed by a detailed structural analysis of the stage providing modal characteristics of the rotor blades, including structural damping under rotation.
The participating laboratories of Ecole Centrale de Lyon and the Von Karman Institute for Fluid Dynamics have the experience to challenge the demanding research initiative with the ambition to provide a reference benchmark for the European research community.
Ámbito científico
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RIA - Research and Innovation actionCoordinador
69134 Ecully
Francia