Experimental Assessment of Low Noise Landing Gear Component Design

Landing gear related airframe noise is one of the dominant aircraft noise components at approach, so continued research efforts to reduce landing gear noise are essential. This paper describes further development of an advanced low noise main landing gear that was previously designed and tested in t...

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Veröffentlicht in:	International journal of aeroacoustics 2010-07, Vol.9 (6), p.763-786
Hauptverfasser:	Dobrzynski, Werner, Chow, Leung Choi, Smith, Malcolm, Boillot, Antoine, Dereure, Olivier, Molin, Nicolas
Format:	Artikel
Sprache:	eng
Schlagworte:	Aircraft components Airframes Fairings Landing gear Mathematical models Noise Silencers Undercarriage
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container_title	International journal of aeroacoustics
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creator	Dobrzynski, Werner Chow, Leung Choi Smith, Malcolm Boillot, Antoine Dereure, Olivier Molin, Nicolas
description	Landing gear related airframe noise is one of the dominant aircraft noise components at approach, so continued research efforts to reduce landing gear noise are essential. This paper describes further development of an advanced low noise main landing gear that was previously designed and tested in the European SILENCER project. The work was carried out under the current European co-financed TIMPAN project (Technologies to IMProve Airframe Noise) using a ¼ scaled landing gear model that was tested in the German-Dutch Wind Tunnel. A variety of gear configurations were tested including a new side-stay design and various modifications to the bogie inclination, wheel spacing, bogie fairings with different flow transparency, leg-door configurations and brake fairings. The farfield noise data from the tests are compared with results from a landing gear noise prediction model, transposed to full scale flight conditions and compared with the full scale test data obtained for the original SILENCER advanced A340 style 4-wheel main landing gear. An optimal combination of tested gear modifications led to a further noise reduction of up to 8 dB(A) in terms of overall A-weighted noise levels relative to the original advanced gear configuration.
doi_str_mv	10.1260/1475-472X.9.6.763
format	Article
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subjects	Aircraft components Airframes Fairings Landing gear Mathematical models Noise Silencers Undercarriage
title	Experimental Assessment of Low Noise Landing Gear Component Design
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