Improving acoustic methods of pipeline leak location with distributed sensing
Improving acoustic methods of pipeline leak location with distributed sensing
Leaks in water distribution mains are a big problem, with around 20% of supplied potable water lost to leaks during transport. Correlation-based acoustic techniques have provided an accurate and non-invasive way of detecting and locating these leaks for a few decades. These methods have almost exclusively been using two sensors, and so this paper presents work aiming to explore leak detection and location with multiple sensors distributed along a pipe. Beamforming is a well-established method for using arrays of sensors to locate sources, among other purposes. With this premise, the present work adopts an array processing algorithm (MUSIC) in the context of water leak detection, intending to develop a framework for detecting multiple leaks using a sensor array. The concept, processing and implementation details are first supported with numerical simulations using existing acoustic models of water pipes. Then, experiments are presented on a short section of water-filled pipe with leak-like disturbances. These are captured with an array of accelerometers and processed using an implementation of the algorithm, testing the impact of real-world effects studied in simulations. The study considers several aspects of practical interest: (i) the effect of noise, both correlated and uncorrelated; (ii) the effect of reflections from discontinuities, such as pipe fittings and connections; (iii) the number and the distribution of sensors; as well as (iv) the presence of multiple leaks. The results pave the way for implementing this algorithm on practical installation designs, including the rod method developed during a wider research project associated with this study.
Hooper, Joshua Z.
7261d891-c73e-4b4b-b82d-d3a05999e22d
Kalkowski, Michał
6f0d01ef-7f44-459c-82a2-03f9e1275eda
Muggleton, Jennifer M.
2298700d-8ec7-4241-828a-1a1c5c36ecb5
28 June 2024
Hooper, Joshua Z.
7261d891-c73e-4b4b-b82d-d3a05999e22d
Kalkowski, Michał
6f0d01ef-7f44-459c-82a2-03f9e1275eda
Muggleton, Jennifer M.
2298700d-8ec7-4241-828a-1a1c5c36ecb5
Hooper, Joshua Z., Kalkowski, Michał and Muggleton, Jennifer M.
(2024)
Improving acoustic methods of pipeline leak location with distributed sensing.
Journal of Physics: Conference Series, 2647 (19), [192010].
(doi:10.1088/1742-6596/2647/19/192010).
Abstract
Leaks in water distribution mains are a big problem, with around 20% of supplied potable water lost to leaks during transport. Correlation-based acoustic techniques have provided an accurate and non-invasive way of detecting and locating these leaks for a few decades. These methods have almost exclusively been using two sensors, and so this paper presents work aiming to explore leak detection and location with multiple sensors distributed along a pipe. Beamforming is a well-established method for using arrays of sensors to locate sources, among other purposes. With this premise, the present work adopts an array processing algorithm (MUSIC) in the context of water leak detection, intending to develop a framework for detecting multiple leaks using a sensor array. The concept, processing and implementation details are first supported with numerical simulations using existing acoustic models of water pipes. Then, experiments are presented on a short section of water-filled pipe with leak-like disturbances. These are captured with an array of accelerometers and processed using an implementation of the algorithm, testing the impact of real-world effects studied in simulations. The study considers several aspects of practical interest: (i) the effect of noise, both correlated and uncorrelated; (ii) the effect of reflections from discontinuities, such as pipe fittings and connections; (iii) the number and the distribution of sensors; as well as (iv) the presence of multiple leaks. The results pave the way for implementing this algorithm on practical installation designs, including the rod method developed during a wider research project associated with this study.
Text
Hooper_2024_J._Phys.__Conf._Ser._2647_192010
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e-pub ahead of print date: 28 June 2024
Published date: 28 June 2024
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© Published under licence by IOP Publishing Ltd.
Venue - Dates:
XII International Conference on Structural Dynamics, , Delft, Netherlands, 2023-07-03 - 2023-07-05
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Local EPrints ID: 491969
URI: http://eprints.soton.ac.uk/id/eprint/491969
ISSN: 1742-6588
PURE UUID: 5dd155a3-6364-4492-8d42-f799d3dd4667
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Date deposited: 09 Jul 2024 17:43
Last modified: 24 Jul 2024 02:04
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Joshua Z. Hooper
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