Viability of small-scale arsenic-contaminated-water purification technologies for sustainable development in Pakistan

Drinking arsenic‐contaminated water leads to a series of health problems that has limited development for the largely poor rural people of Pakistan who are unable to afford bottled water, centralized treatment plants or expensive water filter systems. This paper reviews the available appropriate tec...

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Bibliographic Details
Published in:Sustainable development (Bradford, West Yorkshire, England) West Yorkshire, England), 2011-07, Vol.19 (4), p.223-234
Main Authors: Hashmi, Fatima, Pearce, Joshua M.
Format: Article
Language:English
Subjects:
Appropriate Technologies
Appropriate technology
Arsenic
Arsenic removal
Bottled water
Choice of technology
Cost
Cost analysis
Costs
Drinking water
Economics
Environmental Engineering
Environmental Sciences
Family
Health Problems
Local economy
Low Income Groups
Materials
Operating costs
Pakistan
Pakistanis
Pollutant removal
Pollution control
Sand
small-scale technology
Studies
Sustainable Development
Technology
Viability
Villages
Water
Water management
Water pollutants
Water pollution
Water purification
Water Supply
Water treatment
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Summary:Drinking arsenic‐contaminated water leads to a series of health problems that has limited development for the largely poor rural people of Pakistan who are unable to afford bottled water, centralized treatment plants or expensive water filter systems. This paper reviews the available appropriate technologies for the removal of arsenic from drinking water to assist in just sustainable development in Pakistan. Several technologies were found to be both technically and economically viable, supporting the large‐scale deployment of these small‐scale, appropriate technologies. The economic viability determined in this study was based on both first costs and operating costs. The cost of implementing such technologies for an individual Pakistani family is made acceptable with the use of local materials, which the family may already own. For example, systems using sand and iron nails in the filters, and that are placed in plastic buckets that are already in common use in the villages, drive down the overall costs of the technology and put it in the reach of even the most destitute. This study found that complications from the variability of local supplies result in the need to identify the locally most appropriate solution from both a technical and economic standpoint. This review article should be helpful for any practitioner in determining the locally optimal solution for the removal of arsenic from drinking water in Pakistan. Copyright © 2009 John Wiley & Sons, Ltd and ERP Environment.
ISSN:0968-0802
1099-1719
DOI:10.1002/sd.414