Abstract
Water pipe leaks due to seismic damage are more difficult to detect than bursts, and such leaks, if not repaired in a timely manner, can eventually reduce supply pressure and generate both pollutant penetration risks and economic losses. Therefore, leaks must be promptly identified, and damaged pipes must be replaced or repaired. Leak-detection using equipment in the field is accurate; however, it is a considerably labor-intensive process that necessitates expensive equipment. Therefore, indirect leak detection methods applicable before fieldwork are necessary. In this study, a computer-based, multiple-leak-detection model is developed. The proposed technique uses observational data, such as the pressure and flow rate, in conjunction with an optimization method and hydraulic analysis simulations, to improve detection efficiency (DE) for multiple leaks in the field. A novel approach is proposed, i.e., use of a cascade and iteration search algorithms to effectively detect multiple leaks (with the unknown locations, quantities, and sizes encountered in real-world situations) due to large-scale disasters, such as earthquakes. This method is verified through application to small block-scale water distribution networks (WDNs), and the DE is analyzed. The proposed detection model can be used for efficient leak detection and the repair of WDNs following earthquakes.
Highlights
Water distribution networks (WDNs) are underground infrastructure facilities that supply drinking water in a safe and efficient manner
The analysis team searches for pipes with high leak probabilities within a pipe network, using hydraulic analysis based on field observation data as well as an optimization method, Sustainability 2021, 13, x FOR PEER REVIEW
The field survey conducted by the fieldwork team was based on the analysis team’s simulation results, and the field survey results were provided to the analysis team for additional iterative searching
Summary
Water distribution networks (WDNs) are underground infrastructure facilities that supply drinking water in a safe and efficient manner. As most of these facilities are underground, it is difficult to maintain them and to immediately identify damage due to natural disasters, such as earthquakes. Earthquake damage to WDNs is typically manifested in leaks and bursts. Persistent leaks in a WDN reduce supply pressure, cause pollutant penetration into the pipe network, soften the nearby ground, and, in severe cases, interrupt water supply. Because water supply failures may cause economic losses and social inconvenience, it is necessary to promptly identify and repair damaged pipes
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