Boundary layer effects on liners for aircraft engines
Boundary layer effects on liners for aircraft engines
The performance of acoustic treatments installed on aircraft engines is strongly influenced by the boundary layer of the grazing flow on the surface of the liner. The parametric study presented in this paper illustrates the extent of this effect and identifies when it is significant. The acoustic modes of a circular duct with flow are calculated using a finite difference method. The parameters are representative of the flow conditions, liners and sound fields found in current turbofan engines. Both the intake and bypass ducts are considered. Results show that there is a complex interplay between the boundary layer thickness, the direction of propagation and the liner impedance and that the boundary layer can have a strong impact on liner performance for typical configurations (including changes of the order of 30dB on the attenuation of modes associated with tonal fan noise). A modified impedance condition including the effect of a small but finite boundary layer thickness is considered and compared to the standard Myers condition based on an infinitely thin boundary layer. We show how this impedance condition can be implemented in a mode calculation method by introducing auxiliary variables. This condition is able to capture the trends associated with the boundary layer effects and in most cases provides improved predictions of liner performance.
30-47
Gabard, Gwenael
bfd82aee-20f2-4e2c-ad92-087dc8ff6ce7
13 July 2016
Gabard, Gwenael
bfd82aee-20f2-4e2c-ad92-087dc8ff6ce7
Gabard, Gwenael
(2016)
Boundary layer effects on liners for aircraft engines.
Journal of Sound and Vibration, 381, .
(doi:10.1016/j.jsv.2016.06.032).
Abstract
The performance of acoustic treatments installed on aircraft engines is strongly influenced by the boundary layer of the grazing flow on the surface of the liner. The parametric study presented in this paper illustrates the extent of this effect and identifies when it is significant. The acoustic modes of a circular duct with flow are calculated using a finite difference method. The parameters are representative of the flow conditions, liners and sound fields found in current turbofan engines. Both the intake and bypass ducts are considered. Results show that there is a complex interplay between the boundary layer thickness, the direction of propagation and the liner impedance and that the boundary layer can have a strong impact on liner performance for typical configurations (including changes of the order of 30dB on the attenuation of modes associated with tonal fan noise). A modified impedance condition including the effect of a small but finite boundary layer thickness is considered and compared to the standard Myers condition based on an infinitely thin boundary layer. We show how this impedance condition can be implemented in a mode calculation method by introducing auxiliary variables. This condition is able to capture the trends associated with the boundary layer effects and in most cases provides improved predictions of liner performance.
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Accepted/In Press date: 21 June 2016
Published date: 13 July 2016
Organisations:
Acoustics Group
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Local EPrints ID: 397992
URI: http://eprints.soton.ac.uk/id/eprint/397992
ISSN: 0022-460X
PURE UUID: 247c7253-8ed9-44c8-bcf6-ca1ab20e9c73
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Date deposited: 14 Jul 2016 08:28
Last modified: 15 Mar 2024 05:44
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Author:
Gwenael Gabard
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