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Axisymmetric wave propagation in fluid-filled pipes: wavenumber measurements in in-vacuo and buried pipes

Axisymmetric wave propagation in fluid-filled pipes: wavenumber measurements in in-vacuo and buried pipes
Axisymmetric wave propagation in fluid-filled pipes: wavenumber measurements in in-vacuo and buried pipes
Detection of water leaks in buried distribution pipes using acoustic methods is common practice in many countries. Correlation techniques are widely used in leak detection, but for these to be effective, the propagation wave speeds and wave attenuation must be known. Relatively predictable for metal pipes, these are largely unknown for the newer plastic pipes, being highly dependent on the pipe wall properties and the surrounding medium. In a previous paper a theoretical model of a buried fluid-filled pipe to predict both wavespeed and attenuation was presented; the aim of the work in this paper is to validate this model experimentally. Wavenumber measurements, encompassing both wavespeed and wave attenuation are made on a water-filled pipe in vacuo and on a buried water-filled pipe. In general, the measurements show good agreement with the theoretical predictions.
0022-460X
171-190
Muggleton, J.M.
2298700d-8ec7-4241-828a-1a1c5c36ecb5
Brennan, M.J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Linford, P.W.
094a455d-b077-46df-be64-736b9b45d568
Muggleton, J.M.
2298700d-8ec7-4241-828a-1a1c5c36ecb5
Brennan, M.J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Linford, P.W.
094a455d-b077-46df-be64-736b9b45d568

Muggleton, J.M., Brennan, M.J. and Linford, P.W. (2004) Axisymmetric wave propagation in fluid-filled pipes: wavenumber measurements in in-vacuo and buried pipes. Journal of Sound and Vibration, 270 (1-2), 171-190. (doi:10.1016/S0022-460X(03)00489-9).

Record type: Article

Abstract

Detection of water leaks in buried distribution pipes using acoustic methods is common practice in many countries. Correlation techniques are widely used in leak detection, but for these to be effective, the propagation wave speeds and wave attenuation must be known. Relatively predictable for metal pipes, these are largely unknown for the newer plastic pipes, being highly dependent on the pipe wall properties and the surrounding medium. In a previous paper a theoretical model of a buried fluid-filled pipe to predict both wavespeed and attenuation was presented; the aim of the work in this paper is to validate this model experimentally. Wavenumber measurements, encompassing both wavespeed and wave attenuation are made on a water-filled pipe in vacuo and on a buried water-filled pipe. In general, the measurements show good agreement with the theoretical predictions.

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Published date: 6 February 2004

Identifiers

Local EPrints ID: 28031
URI: http://eprints.soton.ac.uk/id/eprint/28031
DOI: doi:10.1016/S0022-460X(03)00489-9
ISSN: 0022-460X
PURE UUID: a5b25c1d-025e-4339-80fc-1531d532d1e6

Catalogue record

Date deposited: 28 Apr 2006
Last modified: 15 Mar 2024 07:22

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Contributors

Author: J.M. Muggleton
Author: M.J. Brennan
Author: P.W. Linford

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