Point of Use Household Drinking Water Filtration: A Practical, Effective Solution for Providing Sustained Access to Safe Drinking Water in the Developing World
Point of Use Household Drinking Water Filtration: A Practical, Effective Solution for Providing Sustained Access to Safe Drinking Water in the Developing World
Publication Year:
2008
Authors:
Sobsey, Mark D.; Stauber, Christine E.; Casanova, Lisa M.; Brown, Joseph M.; Elliott, Mark A.
Language:
English
Resource Type:
Journal Article
Summary:
The most effective, widely promoted and used POU HWTs are critically examined according to specified criteria for performance and sustainability.
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Resource Information
Abstract
The lack of safe water creates a tremendous burden of diarrheal disease and other debilitating, life-threatening illnesses for people in the developing world. Point-of-use (POU) water treatment technology has emerged as an approach that empowers people and communities without access to safe water to improve water quality by treating it in the home. Several POU technologies are available, but, except for boiling, none have achieved sustained, large-scale use. Sustained use is essential if household water treatment technology (HWT) is to provide continued protection, but it is difficult to achieve. The most effective, widely promoted and used POU HWTs are critically examined according to specified criteria for performance and sustainability. Ceramic and biosand household water filters are identified as most effective according to the evaluation criteria applied and as having the greatest potential to become widely used and sustainable for improving household water quality to reduce waterborne disease and death.
Resource Type
Journal Article
Publication Year
2008
Author
Sobsey, Mark D.; Stauber, Christine E.; Casanova, Lisa M.; Brown, Joseph M.; Elliott, Mark A.
Language
English
Specific Contaminants
Bacteria, Viruses, Protozoa
Specific Solutions
WaterMaker (Control Chemicals), PuR (Procter and Gamble)
University Affiliation
University of North Carolina at Chapel Hill, University of Alabama
Business Connect Takeaways
The study jointly analyzes physical and economic water scarcity at a global scale, and identifies areas and populations at greatest risk of a water crisis.
The authors used gridded data sets to estimate GDP and water availability, and applied withdrawal-to-availability ratio and availability per capita as indicators of water stress.
Effective leadership and governance can alleviate water scarcity, as demonstrated by the case study of Phnom Penh, Cambodia