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Abstract Enhancing drinking water resilience has become increasingly important. However, a comprehensive analysis of drinking water emergency countermeasures is lacking. This study evaluated eight countermeasures including monitoring, local alternatives, reclaimed water, interconnection, bulk water, pre‐packaged water, emergency treatment, and isolation valves from resilience and sustainability (i.e., life cycle cost) perspectives. While countermeasures such as interconnections perform relatively well from both perspectives, there is a clear trade‐off between resilience and cost. Local alternatives and emergency treatment respond quickly and provide sustained supply during emergencies but may incur higher costs. Bulk water and pre‐packaged water are typically inexpensive but have limited supply capacity and take time to distribute. As future threats are likely to become more frequent and prolonged, it is prudent for service providers to invest in countermeasures that perform well in both resilience and cost and use an integrated approach that combines high capital projects with bulk/pre‐packaged water contracts.
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From Intermittent to Continuous Water Supply: A Household-level Evaluation of Water System Reforms in Hubli–Dharwad
Employing a matched cohort research design, eight wards with intermittent water supply are compared to eight wards upgraded to continuous (24 x 7) supply in a demonstration project in Hubli–Dharwad, Karnataka, with respect to tap water quality, child health, water storage practices, and coping costs across socio-economic strata. Water consumption and waste in the intermittent zones, and the potential for scale-up of continuous supply to the entire city, are estimated. It was found that the 24 x 7 project improved water quality, did not improve overall child health, but did reduce serious waterborne illnesses in the lowest-income strata, reduced the costs of waiting, increased monthly water bills, and potentially reduced water security for some of the poorest households.
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- Award ID(s):
- 1633740
- PAR ID:
- 10107108
- Date Published:
- Journal Name:
- Economic and political weekly
- Volume:
- 58
- ISSN:
- 0012-9976
- Page Range / eLocation ID:
- 39-48
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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