Dynamic analysis of non-revenue water in district metered areas under varying water consumption conditions owing to COVID-19

Abstract

Increasing water demands and high water losses have rendered securing safe water challenging in the 21st century. Although non-revenue water (NRW), as a percentage of system input, has been commonly used by water utilities worldwide, in-depth analyses on the influence of water consumption fluctuation on NRW has never been conducted; instead, taking one-year average NRW volume has been recommended. Thus, this study analyzed the influence of water consumption fluctuation on NRW using the data of five district metered areas (DMAs) in Colombo City, Sri Lanka, and also by the network simulation analysis. The results showed that percentage and volumetric NRWs are strongly correlated with water consumption (r = 0.9373 and 0.9121, respectively) and with each other (r = 0.9977) due to pressure changes in water supply networks caused by water consumption fluctuation. Therefore, dynamic analysis of NRW by plotting DMA inflow and NRW against water consumption was conducted using the aforementioned DMA data and long-term (1956–2021) water consumption and NRW data in Tokyo. This method identified two factors influencing NRW: water consumption fluctuation and network leakage changes, and the results were verified; thus, it can be applied to NRW analysis even under the influence of high water consumption fluctuations.