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Analysis of Acoustic Signals for Leak Detection in Water Distribution Networks

2023
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Release : 2023
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Book Synopsis Analysis of Acoustic Signals for Leak Detection in Water Distribution Networks by : Runal Shrivastava

Download or read book Analysis of Acoustic Signals for Leak Detection in Water Distribution Networks written by Runal Shrivastava. This book was released on 2023. Available in PDF, EPUB and Kindle. Book excerpt: Acoustic leak detection methods have proven effective in identifying leaks before they can cause interruptions in water supply and financial loss. However, most studies in this area have relied on laboratory experiments, and there is a need to expand the use of acoustic-based leak detection methods for real-time monitoring in the field. This study focuses on using hydrophones for leak detection in four different parts of a water network. The aim is to identify features that can differentiate between simulations of leaks and normal flow conditions and to assess the impact of network and leak characteristics on these features. Data was obtained from leaks simulated in the field, and the signals were analyzed using continuous wavelet transform and power spectral density. The results showed that acoustic signals from sites with cast iron pipes exhibit a higher power value in the frequency range of 200 to 400 Hz during most leak tests. Factors such as the distance of leaks from the sensors and network topology affect the magnitude of power for this frequency range, thus making detection more challenging. This frequency band can be used to establish a historical baseline and differentiate normal and abnormal conditions, thus, facilitating leak detection. The study concludes that acoustic-based leak detection methods have the potential to detect leaks in cast iron pipe networks. However, further research is necessary to tackle challenges present in real water distribution networks, including background noise, changes in pipe properties, and complicated network topology

Analysis and Design of an In-pipe System for Water Leak Detection

2010
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Release : 2010
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Book Synopsis Analysis and Design of an In-pipe System for Water Leak Detection by : Dimitris M. Chatzigeorgiou

Download or read book Analysis and Design of an In-pipe System for Water Leak Detection written by Dimitris M. Chatzigeorgiou. This book was released on 2010. Available in PDF, EPUB and Kindle. Book excerpt: Leaks are a major factor for unaccounted water losses in almost every water distribution network. Pipeline leak may result, for example, from bad workmanship or from any destructive cause, due to sudden changes of pressure, corrosion, cracks, defects in pipes or lack of maintenance. The problem of leak becomes even more serious when it is concerned with the vital supply of fresh water to the community. In addition to waste of resources, contaminants may infiltrate into the water supply. The possibility of environmental health disasters due to delay in detection of water pipeline leaks have spurred research into the development of methods for pipeline leak and contamination detection. This thesis is on the analysis and design of a floating mobile sensor for leak detection in water distribution pipes. This work covers the study of two modules, namely a "floating body" along with its "sensing module". The Mobility Module or the floating body was carefully studied and designed using advanced CFD techniques to make the body as non-invasive to the flow as possible and to avoid signal corruption. In addition, experiments were carried out to investigate the effectiveness of using in-pipe measurements for leak detection in plastic pipes. Specifically, acoustic signals due to simulated leaks were measured and studied for designing a detection system to be deployed inside water networks of 100mm pipe size.

Acoustic Monitoring for Leaks in Water Distribution Networks

2020
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Release : 2020
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Book Synopsis Acoustic Monitoring for Leaks in Water Distribution Networks by : Roya Cody

Download or read book Acoustic Monitoring for Leaks in Water Distribution Networks written by Roya Cody. This book was released on 2020. Available in PDF, EPUB and Kindle. Book excerpt: Water distribution networks (WDNs) are complex systems that are subjected to stresses due to a number of hydraulic and environmental loads. Small leaks can run continuously for extended periods, sometimes indefinitely, undetected due to their minimal impact on the global system characteristics. As a result, system leaks remain an unavoidable reality and water loss estimates range from 10\%-25\% between treatment and delivery. This is a significant economic loss due to non-revenue water and a waste of valuable natural resource. Leaks produce perceptible changes in the sound and vibration fields in their vicinity and this aspect as been exploited in various techniques to detect leaks today. For example, the vibrations caused on the pipe wall in metal pipes, or acoustic energy in the vicinity of the leak, have all been exploited to develop inspection tools. However, most techniques in use today suffer from the following: (i) they are primarily inspection techniques (not monitoring) and often involve an expert user to interpret inspection data; (ii) they employ intrusive procedures to gain access into the WDN and, (iii) their algorithms remain closed and publicly available blind benchmark tests have shown that the detection rates are quite low. The main objective of this thesis is to address each of the aforementioned three problems existing in current methods. First, a technology conducive to long-term monitoring will be developed, which can be deployed year-around in live WDN. Secondly, this technology will be developed around existing access locations in a WDN, specifically from fire hydrant locations. To make this technology conducive to operate in cold climates such as Canada, the technology will be deployed from dry-barrel hydrants. Finally, the technology will be tested with a range of powerful machine learning algorithms, some new and some well-proven, and results published in the open scientific literature. In terms of the technology itself, unlike a majority of technologies that rely on accelerometer or pressure data, this technology relies on the measurement of the acoustic (sound) field within the water column. The problem of leak detection and localization is addressed through a technique called linear prediction (LP). Extensively used in speech processing, LP is shown in this work to be effective in capturing the composite spectrum effects of radiation, pipe system, and leak-induced excitation of the pipe system, with and without leaks, and thus has the potential to be an effective tool to detect leaks. The relatively simple mathematical formulation of LP lends itself well to online implementation in long-term monitoring applications and hence motivates an in-depth investigation. For comparison purposes, model-free methods including a powerful signal processing technique and a technique from machine learning are employed. In terms of leak detection, three data-driven anomaly detection approaches are employed and the LP method is explored for leak localization as well. Tests were conducted on several laboratory test beds, with increasing levels of complexity and in a live WDN in the city of Guelph, Ontario, Canada. Results form this study show that the LP method developed in this thesis provides a unified framework for both leak detection and localization when used in conjunction with semi-supervised anomaly detection algorithms. A novel two-part localization approach is developed which utilizes LP pre-processed data, in tandem with the traditional cross-correlation approach. Results of the field study show that the presented method is able to perform both leak-detection and localization using relatively short time signal lengths. This is advantageous in continuous monitoring situations as this minimizes the data transmission requirements, the latter being one of the main impediments to full-scale implementation and deployment of leak-detection technology.

Leak Detection

2013-06-30 Science
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Release : 2013-06-30
Genre : Science
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Book Rating : 700/5 ( reviews)

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Book Synopsis Leak Detection by : Stuart Hamilton

Download or read book Leak Detection written by Stuart Hamilton. This book was released on 2013-06-30. Available in PDF, EPUB and Kindle. Book excerpt: Ageing infrastructure and declining water resources are major concerns with a growing global population. Controlling water loss has therefore become a priority for water utilities around the world. In order to improve efficiencies, water utilities need to apply good practices in leak detection. Leak Detection: Technology and Implementation assists water utilities with the development and implementation of leak detection programs. Leak detection and repair is one of the components of controlling water loss. In addition, techniques are discussed within this book and relevant case studies are presented. This book provides useful and practical information on leakage issues.

Acoustic Noise Characterization for Leak Detection in Water Mains

2017
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Release : 2017
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Book Synopsis Acoustic Noise Characterization for Leak Detection in Water Mains by : Abu Hena Muntakim

Download or read book Acoustic Noise Characterization for Leak Detection in Water Mains written by Abu Hena Muntakim. This book was released on 2017. Available in PDF, EPUB and Kindle. Book excerpt: Acoustic emission (AE) method is becoming popular for leak detection in municipal water mains where leaks are identified and the locations are determined through interpretation of measured acoustic signals without any excavation or disruption of services. For the interpretation of signals, several parameters such as frequency band of signals, coherence between signals, and cross-correlation between signals are employed. However, published literature lack data on applicability of the AE method under various field conditions. This research presents field investigation of leak detection using AE method, identification of leak noise source, leak noise attenuation characteristics and finite element (FE) simulation of acoustic wave propagation through fluid filled pipe. The field application of the AE method was performed through measuring acoustic noise at two points bracketing the leak along the pipe length in the City of Mount Pearl in Newfoundland and Labrador, Canada. For a better understanding of the source of leak noise, a preliminary laboratory investigation was conducted under a controlled environment. At low flow rates, it was found that water (escaping from the leak) hits surrounding obstacles and generates the leak noise. To explore the characteristics of leak noise, a new laboratory facility was developed and the attenuation characteristics of the leak noise was investigated. Leak noise attenuation was found to depend on the flow rate of the water. Finally, finite element (FE) method was used for modelling of acoustic wave propagation and attenuation characteristics. A commercially available FE software "ABAQUS" was used. FE analysis reveals that acoustic leak noise can propagate up to 150 m before attenuating to the ambient noise level in water mains.

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