Sound power flux measurements in strongly exited ducts with flow
Sound power flux measurements in strongly exited ducts with flow
This contribution describes new robust procedures for the measurement of sound power flux at appropriate axial positions along a duct with flow, using pairs of flush wall mounted microphones, or pressure transducers. The technology includes the application of selective averaging, order tracking, and optimized sampling rate methods to identify the small fraction of the total fluctuating wave energy that is being propagated along the flow path in a reverberent, or highly reactive duct system.
Such measurements can also be used to quantify the local acoustic characteristics that govern the generation, transfer, and propagation of wave energy in the system. Illustrative examples include the determination of the acoustic characteristics of individual silencing elements installed in IC engine intakes and exhausts both on the flow bench and during controlled acceleration or run down on a test bed, where the wave component spectral levels approached 170 dB.
acoustic intensity measurement, aeroacoustics, acoustic noise measurement
2863-2871
Holland, Keith R.
90dd842b-e3c8-45bb-865e-3e7da77ec703
Davies, Peter O.A.L.
ffd3c6f8-58ce-4484-b539-59854e72c90f
Van der Walt, Daniel C.
2cc8826d-6d73-4558-b15b-f4b29f10a3c4
December 2002
Holland, Keith R.
90dd842b-e3c8-45bb-865e-3e7da77ec703
Davies, Peter O.A.L.
ffd3c6f8-58ce-4484-b539-59854e72c90f
Van der Walt, Daniel C.
2cc8826d-6d73-4558-b15b-f4b29f10a3c4
Holland, Keith R., Davies, Peter O.A.L. and Van der Walt, Daniel C.
(2002)
Sound power flux measurements in strongly exited ducts with flow.
Journal of the Acoustical Society of America, 112 (6), .
(doi:10.1121/1.1509434).
Abstract
This contribution describes new robust procedures for the measurement of sound power flux at appropriate axial positions along a duct with flow, using pairs of flush wall mounted microphones, or pressure transducers. The technology includes the application of selective averaging, order tracking, and optimized sampling rate methods to identify the small fraction of the total fluctuating wave energy that is being propagated along the flow path in a reverberent, or highly reactive duct system.
Such measurements can also be used to quantify the local acoustic characteristics that govern the generation, transfer, and propagation of wave energy in the system. Illustrative examples include the determination of the acoustic characteristics of individual silencing elements installed in IC engine intakes and exhausts both on the flow bench and during controlled acceleration or run down on a test bed, where the wave component spectral levels approached 170 dB.
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More information
Published date: December 2002
Keywords:
acoustic intensity measurement, aeroacoustics, acoustic noise measurement
Identifiers
Local EPrints ID: 28009
URI: http://eprints.soton.ac.uk/id/eprint/28009
ISSN: 0001-4966
PURE UUID: 06dba501-4e0e-479b-8819-b9eb712edcab
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Date deposited: 28 Apr 2006
Last modified: 15 Mar 2024 07:22
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Contributors
Author:
Keith R. Holland
Author:
Peter O.A.L. Davies
Author:
Daniel C. Van der Walt
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