Abstract:
The urban water supply industry faces numerous challenges, including inadequate water supply
relative to public demand, outdated infrastructure causing water loss, substandard services
throughout the distribution process, and management and staff mindset towards service
provision. Rapid urbanisation and population growth have further strained water resources and
infrastructure, exacerbating these challenges. The presence of high levels of Non-Revenue
Water (NRW), which encompasses both physical losses (leakages) and commercial losses
(unauthorised consumption and inaccurate metering), further exacerbates these challenges,
coupled with limited availability of funds for infrastructure improvement and maintenance.
NRW poses a barrier to sustainability not only due to energy and water loss but also due to
revenue loss for water utilities, impacting their financial viability. Therefore, this research aims
to focus specifically on the issue of NRW to contribute to sustainable water management,
addressing both environmental and economic concerns. The research objectives include not
only exploring and discussing water losses in the transmission and distribution system but also
analysing the socio-economic factors that contribute to NRW. By delving into the socioeconomic
aspects, the study aims to provide a holistic understanding of the issue, considering
factors such as affordability, consumer behavior, and illegal water tapping. To accomplish
these objectives, the study employs the Analytic Hierarchy Process (AHP), a widely recognised
decision-making tool that allows for a structured evaluation of complex multi-criteria
problems. By utilising AHP, the research assesses various factors contributing to pipe leakages
and NRW. The AHP methodology enables the identification and prioritisation of key factors
influencing pipe leakages, providing valuable insights for enhancing the performance and
maintenance of water distribution systems. By identifying the factors contributing to pipeline
leakage and NRW, proactive measures can be implemented to prevent and control leaks at an
early stage, thereby shifting from a reactive to a proactive approach in water management. This
transition will enable the industry to detect and address leakage issues more effectively, leading
to improved overall water management and a reduction in NRW. The research also
acknowledges the importance of public awareness campaigns and community engagement in
reducing NRW, as informed consumers can play a crucial role in leak detection and reporting.
The research focuses on the Gampaha Water Supply Scheme as a case study due to its relevance
to the challenges faced by urban water supply systems in many developing countries. The
findings of this research will provide practical recommendations for policymakers and water
management authorities to optimise water supply systems, minimise losses, and enhance
sustainability in urban water supply schemes. This research contributes to the ongoing
discourse on sustainable urban water management by addressing the critical issue of NRW.
Through these efforts, the research aims to pave the way for more resilient and efficient water
supply systems that can cater to the needs of growing urban populations while minimising
resource wastage and financial losses.