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The effects of viscosity on sound radiation near solid surfaces

The effects of viscosity on sound radiation near solid surfaces
The effects of viscosity on sound radiation near solid surfaces
Although the acoustic analogy developed by Lighthill, Curle, and Ffowcs Williams and Hawkings for sound generation by unsteady flow past solid surfaces is formally exact, it has become accepted practice in aeroacoustics to use an approximate version in which viscous quadrupoles are neglected. Here we show that, when sound is radiated by non-rigid surfaces, and the smallest dimension is comparable to or less than the viscous penetration depth, neglect of the viscous-quadrupole term can cause large errors in the sound field. In addition, the interpretation of the viscous quadrupoles as contributing only to sound absorption is shown to be inaccurate. Comparisons are made with the scalar wave equation for linear waves in a viscous fluid, which is extended using generalized functions to describe the effects of solid surfaces. Results are also presented for two model problems, one in a half-space and one with simple cylindrical geometry, for which analytical solutions are available
0022-1120
441-460
Morfey, C.L.
d5f9a8d0-7d8a-4915-a522-bf49dee111f2
Sorokin, S.V.
e6a8aaea-0e90-4376-a3cf-20f1622e2ec1
Gabard, G.
bfd82aee-20f2-4e2c-ad92-087dc8ff6ce7
Morfey, C.L.
d5f9a8d0-7d8a-4915-a522-bf49dee111f2
Sorokin, S.V.
e6a8aaea-0e90-4376-a3cf-20f1622e2ec1
Gabard, G.
bfd82aee-20f2-4e2c-ad92-087dc8ff6ce7

Morfey, C.L., Sorokin, S.V. and Gabard, G. (2012) The effects of viscosity on sound radiation near solid surfaces. Journal of Fluid Mechanics, 690, 441-460. (doi:10.1017/jfm.2011.449).

Record type: Article

Abstract

Although the acoustic analogy developed by Lighthill, Curle, and Ffowcs Williams and Hawkings for sound generation by unsteady flow past solid surfaces is formally exact, it has become accepted practice in aeroacoustics to use an approximate version in which viscous quadrupoles are neglected. Here we show that, when sound is radiated by non-rigid surfaces, and the smallest dimension is comparable to or less than the viscous penetration depth, neglect of the viscous-quadrupole term can cause large errors in the sound field. In addition, the interpretation of the viscous quadrupoles as contributing only to sound absorption is shown to be inaccurate. Comparisons are made with the scalar wave equation for linear waves in a viscous fluid, which is extended using generalized functions to describe the effects of solid surfaces. Results are also presented for two model problems, one in a half-space and one with simple cylindrical geometry, for which analytical solutions are available

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e-pub ahead of print date: 1 December 2011
Published date: January 2012
Organisations: Acoustics Group

Identifiers

Local EPrints ID: 207435
URI: http://eprints.soton.ac.uk/id/eprint/207435
DOI: doi:10.1017/jfm.2011.449
ISSN: 0022-1120
PURE UUID: 2ab66d57-4dd9-42a8-b3ed-878a89e4f8d9

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Date deposited: 12 Jan 2012 14:43
Last modified: 14 Mar 2024 04:39

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Contributors

Author: C.L. Morfey
Author: S.V. Sorokin
Author: G. Gabard

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