Benchmark Performance Indicators for Utility Water and Wastewater Pipelines Infrastructure
Publication: Journal of Water Resources Planning and Management
Volume 144, Issue 3
Abstract
Over the past decade, many performance indicators have been developed for water utilities to track their system performance. This study proposes a set of normalized and time-integrated benchmarking performance indicators for sustainable long-term management of water distribution and wastewater collection networks. The benchmarking performance indicators are aggregated into three categories: (1) infrastructure, (2) sociopolitical, and (3) financial. To demonstrate the use and value of the benchmarking performance indicators, a system dynamics model is used to present a case study for three water utilities in southern Ontario, Canada. This study shows that the benchmarking performance indicators will allow water utilities with different attributes (such as number of customers, network pipe age profile, pipe material type, network size, and location) to benchmark the long-term variation in their performance with other utilities regionally and nationally. Furthermore, the benchmarking performance indicators can be used to forecast the future behavior of the system to ensure decision-making policies that will drive improvements and best practices.
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Data Availability Statement
Data generated or analyzed during the study are available from the corresponding author by request.
Acknowledgments
We gratefully acknowledge the financial support provided by the Natural Science and Engineering Council of Canada, the University of Waterloo, and the Centre for Advancement of Trenchless Technology located at the University of Waterloo. We also acknowledge the City of Waterloo, City of Niagara Falls, and City of Cambridge for their financial support, provision of data, and sharing of valuable insights on water utility management.
References
AECOM. (2015). “National water and wastewater benchmarking initiative: Wastewater performance measures.” ⟨http://nationalbenchmarking.ca⟩ (Apr. 2, 2015).
Alegre, H. (2006). Performance indicators for water supply services, 2nd Ed., International Water Association Publishing, London.
AWWA (American Water Works Association). (2008). “Benchmarking performance indicators for water and wastewater utilities.”, Denver.
Berg, S. (2010). Water utility benchmarking: Measurement, methodologies, and performance incentives, International Water Association Publishing, London.
Boland, J. J., Dziegielewski, B., Baumann, D. D., and Optiz, E. M. (1984). “Influence of price and rate structures on municipal and industrial water use.”, Planning and Management Consultants, Carbondale, IL.
Danilenko, A., van den Berg, C., Macheve, B., and Moffitt, L. J. (2014). The IBNET water supply and sanitation blue book 2014: The international benchmarking network for water and sanitation utilities data book, World Bank Group, Washington, DC.
FCM (Federation of Canadian Municipalities) and NRC (National Research Council). (2002). Developing indicators and benchmarks: A best practice report by the national guide to sustainable municipal infrastructure, InfraGuide, Ottawa.
Lafferty, A. K., and Lauer, B. (2005). “Benchmarking performance indicators for water and wastewater utilities.”, American Water Works Association, Denver.
MPMP (Municipal Performance Measurement Program). (2007). “Municipal performance measurements program handbook.” Ministry of Municipal Affairs and Housing, Toronto.
MPMP (Municipal Performance Measurement Program). (2015). “Municipal performance measurements program.” Ministry of Municipal Affairs and Housing, Toronto.
OFWAT (Water Services Regulation Authority). (2013). “Key performance indicators—Guidance.” Birmingham, U.K.
OMBI (Ontario Municipal Benchmarking Initiative). (2012). “Performance measurement report—Wastewater.” Dundas, ON, Canada.
Rehan, R., Knight, M. A., Haas, C. T., and Unger, A. J. A. (2011). “Application of system dynamics for developing financially self-sustaining management policies for water and wastewater systems.” Water Res., 45(16), 4737–4750.
Rehan, R., Knight, M. A., Unger, A. J. A., and Haas, C. T. (2013). “Development of a system dynamics model for financially sustainable management of municipal watermain networks.” Water Res., 47(20), 7184–7205.
Rehan, R., Unger, A., Knight, M. A., and Haas, C. (2015). “Strategic water utility management and financial planning using a new system dynamics tool.” J. AWWA, 107(1), E22–E36.
Rehan, R., Unger, A. J. A., Knight, M. A., and Haas, C. T. (2014). “Financially sustainable management strategies for urban wastewater collection infrastructure—Implementation of a system dynamics model.” Tunnelling Underground Space Technol., 39(Jan), 102–115.
USEPA (U.S. Environmental Protection Agency). (2008). “Effective utility management: A primer for water and wastewater utilities.”, Washington, DC.
WRF (Water Research Foundation). (2014). “Performance benchmarking for effectively managed water utilities.”, Denver.
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©2018 American Society of Civil Engineers.
History
Received: Dec 16, 2016
Accepted: Aug 11, 2017
Published online: Jan 6, 2018
Published in print: Mar 1, 2018
Discussion open until: Jun 6, 2018
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