On the Acoustic Filtering of the Pipe and Sensor in a Buried Plastic Water Pipe and its Effect on Leak Detection: An Experimental Investigation
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Data
2014-03-01
Autores
Almeida, Fabricio [UNESP]
Brennan, Michael [UNESP]
Joseph, Phillip
Whitfield, Stuart
Dray, Simon
Paschoalini, Amarildo [UNESP]
Título da Revista
ISSN da Revista
Título de Volume
Editor
Mdpi Ag
Resumo
Acoustic techniques have been used for many years to find and locate leaks in buried water distribution systems. Hydrophones and accelerometers are typically used as sensors. Although geophones could be used as well, they are not generally used for leak detection. A simple acoustic model of the pipe and the sensors has been proposed previously by some of the authors of this paper, and their model was used to explain some of the features observed in measurements. However, simultaneous measurements of a leak using all three sensor-types in controlled conditions for plastic pipes has not been reported to-date and hence they have not yet been compared directly. This paper fills that gap in knowledge. A set of measurements was made on a bespoke buried plastic water distribution pipe test rig to validate the previously reported analytical model. There is qualitative agreement between the experimental results and the model predictions in terms of the differing filtering properties of the pipe-sensor systems. A quality measure for the data is also presented, which is the ratio of the bandwidth over which the analysis is carried out divided by the centre frequency of this bandwidth. Based on this metric, the accelerometer was found to be the best sensor to use for the test rig described in this paper. However, for a system in which the distance between the sensors is large or the attenuation factor of the system is high, then it would be advantageous to use hydrophones, even though they are invasive sensors.
Descrição
Palavras-chave
leak detection, plastic water distribution pipes, acoustic methods
Como citar
Sensors. Basel: Mdpi Ag, v. 14, n. 3, p. 5595-5610, 2014.