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Urban Water Mass Balance Analysis

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  • Steven Kenway
  • Alan Gregory
  • Joseph McMahon

Abstract

Planning for “water‐sensitive” cities has become a priority for sustainable urban development in Australia. There has been little quantification of the term, however. Furthermore, the water balance of most cities is not well known. Following prolonged drought, there has also been a growing need to make Australian cities more water self‐reliant: to source water from within. This article formalizes a systematic mass‐balance framework to quantify all anthropogenic and natural flows into and out of the urban environment. Quantitative performance indicators are derived, including (1) degree of system centralization; (2) overall balance; potential of (3) rainfall, (4) stormwater, and (5) wastewater to offset current demand; and (6) water cycle rate. Using the method, we evaluate Sydney, Melbourne, South East Queensland and Perth using reported and modeled data. The approach makes visible large flows of water that have previously been unaccounted and ignored. It also highlights significant intercity variation. In 2004–2005, the cities varied 54% to 100% in their supply centralization, 257% to 397% in the ratio of rainfall and water use, 47% to 104% in their potential stormwater recycling potential, and 26% to 86% in wastewater recycling potential. The approach provides a practical, water‐focused application of the urban metabolism framework. It demonstrates how the principles of mass balance can help foster robust water accounting, monitoring, and management. More important, it contributes to the design and quantitative assessment of water‐sensitive cities of the future.

Suggested Citation

  • Steven Kenway & Alan Gregory & Joseph McMahon, 2011. "Urban Water Mass Balance Analysis," Journal of Industrial Ecology, Yale University, vol. 15(5), pages 693-706, October.
    • Handle: RePEc:bla:inecol:v:15:y:2011:i:5:p:693-706
    DOI: 10.1111/j.1530-9290.2011.00357.x
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    Cited by:

    1. Chaya Ravishankar & Sunil Nautiyal & S Manasi, 2018. "Making every drop count - Micro-level water demand accounting challenges and way forward," Working Papers 424, Institute for Social and Economic Change, Bangalore.
    2. Marteleira, Rita & Pinto, Guilherme & Niza, Samuel, 2014. "Regional water flows – Assessing opportunities for sustainable management," Resources, Conservation & Recycling, Elsevier, vol. 82(C), pages 63-74.
    3. Ruchira Ghosh & Arun Kansal & G Venkatesh, 2019. "Urban Water Security Assessment Using an Integrated Metabolism Approach—Case Study of the National Capital Territory of Delhi in India," Resources, MDPI, vol. 8(2), pages 1-15, April.
    4. Allisa G. Hastie & Christopher M. Chini & Ashlynn S. Stillwell, 2022. "A mass balance approach to urban water analysis using multi‐resolution data," Journal of Industrial Ecology, Yale University, vol. 26(1), pages 213-224, February.
    5. Serrao-Neumann, Silvia & Renouf, Marguerite A. & Morgan, Edward & Kenway, Steven J. & Low Choy, Darryl, 2019. "Urban water metabolism information for planning water sensitive city-regions," Land Use Policy, Elsevier, vol. 88(C).
    6. David Pérez-González & Gian Carlo Delgado-Ramos & Lilia Cedillo Ramírez & Rosalva Loreto López & María Elena Ramos Cassellis & José Víctor Rosendo Tamariz Flores & Ricardo Darío Peña Moreno, 2023. "Puebla City Water Supply from the Perspective of Urban Water Metabolism," Sustainability, MDPI, vol. 15(19), pages 1-34, October.

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