Aerodynamic noise sources on high lift slats and flaps
Aerodynamic noise sources on high lift slats and flaps
The high lift devices used on the wings of civil aircraft to increase lift at low flight speeds are contributors to the overall noise of aircraft at approach. Although there have been a number of recent steps forward in measurement and numerical modelling techniques for these sources there is still more work to be done in understanding the physical and acoustical reasons why they are so dominant. This paper outlines the analysis and interpretation of noise data from an aircraft in flight and the development of a semi-empirical noise model for slats and flaps. Interference patterns observed in the data
indicate that the sound radiation process involves multi-path sound propagation to the observer. A specific outcome of this observation was a notional source model which permitted the separation of noise radiation from the leading and trailing edges of acoustically non-compact flaps, and for slats a separation between two paths radiating from the slat trailing edge either above the slat or through the slat gap. Evidence for the fundamental source mechanisms is combined with standard theory of trailing edge and
leading edge noise on isolated airfoils and acoustic image source techniques to explain why flap noise dominates the forward arc of the aircraft whereas slat noise dominates the rear-arc and hence why these sources are so significant for an observer on the ground.
Smith, M.G.
1bc8608d-0178-4793-8f73-46a6c6b9b279
Chow, L.C.
d0f85930-0d96-4ed5-98f3-9a04182e4274
2003
Smith, M.G.
1bc8608d-0178-4793-8f73-46a6c6b9b279
Chow, L.C.
d0f85930-0d96-4ed5-98f3-9a04182e4274
Smith, M.G. and Chow, L.C.
(2003)
Aerodynamic noise sources on high lift slats and flaps.
9th AIAA/CEAS Aeroacoustics Conference and Exhibition, Hilton Head, USA.
11 - 13 May 2003.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The high lift devices used on the wings of civil aircraft to increase lift at low flight speeds are contributors to the overall noise of aircraft at approach. Although there have been a number of recent steps forward in measurement and numerical modelling techniques for these sources there is still more work to be done in understanding the physical and acoustical reasons why they are so dominant. This paper outlines the analysis and interpretation of noise data from an aircraft in flight and the development of a semi-empirical noise model for slats and flaps. Interference patterns observed in the data
indicate that the sound radiation process involves multi-path sound propagation to the observer. A specific outcome of this observation was a notional source model which permitted the separation of noise radiation from the leading and trailing edges of acoustically non-compact flaps, and for slats a separation between two paths radiating from the slat trailing edge either above the slat or through the slat gap. Evidence for the fundamental source mechanisms is combined with standard theory of trailing edge and
leading edge noise on isolated airfoils and acoustic image source techniques to explain why flap noise dominates the forward arc of the aircraft whereas slat noise dominates the rear-arc and hence why these sources are so significant for an observer on the ground.
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More information
Published date: 2003
Additional Information:
AIAA 2003-3226
Venue - Dates:
9th AIAA/CEAS Aeroacoustics Conference and Exhibition, Hilton Head, USA, 2003-05-11 - 2003-05-13
Identifiers
Local EPrints ID: 10760
URI: http://eprints.soton.ac.uk/id/eprint/10760
PURE UUID: 24130389-eb50-4bd0-ac06-018f7be72b36
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Date deposited: 09 Feb 2006
Last modified: 27 Apr 2022 05:20
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Contributors
Author:
M.G. Smith
Author:
L.C. Chow
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