Globally, the burden of ill‐health in Africa due to unsafe drinkingwater, inadequate sanitation and polluted indoor air stands out prominently. This report explores the possibilities, advantages and implications of integrating interventions on indoor pollution and household water treatment.
SHAHEED, A. BRUCE, N. (2011): Combined Household Water Treatment and Indoor Air Pollution Projects in Urban Mambanda, Cameroon and Rural Nyanza, Kenya. (= Report of a Mission to Mambanda, Cameroon and Nyanza, Kenya, 2009 ). Geneva: World Health Organization (WHO) URL [Accessed: 20.05.2019]Library
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This technical brief presents the current options for safe storage and overview of seven types of point of use water treatment options. It also explains the working mechanism, and discusses the microbiological effectiveness of ceramic candle filter as well as community acceptance and sustainability.
OXFAM (2008): Household Treatment and Storage . (= Technical Brief No. 4 ). Oxford: OXFAM URL [Accessed: 20.05.2019]![](/sites/default/files/reference_icons/CAWST%202009a%20Household%20Water%20Treatment%20and%20Safe%20Storage%20Fact%20Sheet%20Ceramic%20Candle%20Filter%20Academic.jpg)
Factsheet on the principles, construction, operation and maintenance of ceramic candle filters for drinking water treatment in developing countries.
CAWST (2009): Ceramic Candle Filter. Fact Sheet - Academic. (= Household Water Treatment and Safe Storage Fact Sheet - Academic ). Center for Affordable Water and Sanitation Technology (CAWST) URL [Accessed: 20.05.2019]Webpage on the ceramic water filter: context, application and technology.
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This Technical Brief is the first of two examining the treatment of water in the home. The subject is introduced, and treatment by straining, storage, settlement, solar disinfection, chemical disinfection, and boiling are covered.
SKINNER, B. SHAW, R. (1999): Household water treatment 1. London & Loughborough: Water And Environmental Health at London and Loughborough (Well). Technical Brief 58 URL [Accessed: 20.05.2019]![](/sites/default/files/reference_icons/SMET%202002%20Desalination%20Technology%20Chapter%2018.jpg)
This book provides a general introduction to a wide range of technologies. Among the topics covered are: planning and management of small water supplies, community water supplies in Central and Eastern European countries, water quality and quantity, integrated water resources management, artificial recharge, rainwater harvesting, spring water tapping, groundwater withdrawal, water lifting, surface water intake, water treatment, aeration, coagulation and flocculation, sedimentation, multi-stage filtration, desalination technology, disinfection, household level water treatment, technologies for arsenic and iron removal from ground water, and emergency and disaster water supply. Chapter 18: Desanilation Technology
SMET, J. ; WIJK, C. van (2002): Small Community Water Supplies: Technology, People and Partnership: Desalination Technology - Chapter 18. The Hague: International Water and Sanitation Centre (IRC) URL [Accessed: 20.05.2019]![](/sites/default/files/reference_icons/LANTAGNE%202006%20Household%20Water%20Treatment%20and%20Safe%20Storage%20in%20Developing%20Countries_0.jpg)
Summary and brief evaluation of main household water treatment and safe storage (HWTS) options for developing countries. Options described are: chlorination, biosand filtration, ceramic filtration, solar disinfection, filtration and chlorination, flocculation and chlorination.
LANTAGNE, D. S. QUICK, R. MINTZ, E.D. (2006): Household Water Treatment and Safe Storage Options in Developing Countries. Review of Current Implementation Practices. In: ECSP (2006): Water Stories: Expanding Opportunities in small-scale Water and Sanitation Projects. Washington D.C.: 17-38. URL [Accessed: 20.05.2019]![](/sites/default/files/reference_icons/DUARTE%20et%20al%202009%20Emerging%20and%20Innovative%20Techniques%20for%20Arsenic%20Removal%20Applied%20to%20a%20Small%20Water%20Supply%20System.jpg)
This work presents a case study that describes the development of low-cost techniques for efficient arsenic control in drinking water. Iron oxide was used for arsenic removal and high removal efficiencies were monitored during the process of removal.
DUARTE A.A.L.S. ; CARDOSO, S.J.A. ; ALCADA, A.J. (2009): Emerging and Innovative Techniques for Arsenic Removal Applied to a Small Water Supply System. In: Sustainability: Volume 1 , 1288-1304. URL [Accessed: 20.05.2019]This webpage provides a simple description including advantages and disadvantages of boiling water as HWTS options.
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The three arsenic removal technologies (Three-Gagri System, the Jerry Can System, and the Arsenic Treatment Unit (ATU)) were evaluated for their effectiveness and appropriateness.
HURD, J.J. (2001): Evaluation of Three Arsenic Removal Technologies in Nepal. (= Master-Thesis ). Los Angeles: University of California URL [Accessed: 20.05.2019]![](/sites/default/files/reference_icons/CLASEN%20et%20al%202008%20Microbial%20Effectiveness%20Boiling%20semi%20urban%20India.jpg)
This paper tries to assess improvement of microbiological quality in drinking water by boiling and cost analysis of boiling in Virar, Vasai and Nalasopara, three sprawling semi-urban communities in India.
CLASEN, T. MCLAUGHLIN, C. NAYAAR, N. BOISSON, S. GUPTA, R. DESAI, D. SHAH, N. (2008): Microbiological Effectiveness and Cost of Disinfecting Water by Boiling in Semi-urban India. Deerfield: The American Society of Tropical Medicine and Hygiene (ASRMH) URL [Accessed: 20.05.2019]This link provides information on HWTS (background information, technical information, further weblinks etc.) and the WHO network to promote HWTS worldwide.
This web link contains a general discussion on different arsenic removal options for controlling risk.
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This review paper summarizes the problem of household water treatment and discusses chlorination, solar disinfection, and safe storage as household water treatment options.
MINTZ, E. ; BARTRAM, J. ; LOCHERY, P. ; WEGELIN, M. (2001): Not Just a Drop in the Bucket: Expanding Access to Point-of-Use Water Treatment Systems. In: American Journal of Public Health: Volume 91 , 1565-1570. URL [Accessed: 20.05.2019]Read more about EAWAGs Gravity-Driven Membrane (GDM) technology project. There also downloads available.
Resource Development International (RDI) has implemented various projects designed to provide clean water to rural villagers of Cambodia. This page briefly describes some of the explored technical solutions, including ceramic filtration, rainwater harvesting, arsenic testing, pumps and some latrines.
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This paper provides detail information on shock chlorination. It is also available at www.oznet.ksu.edu
POWELL, M ROGERS, D.H. WILLINGHAM, J.M. (2005): Shock Chlorination for Private Water Systems. Kansas State University URL [Accessed: 19.05.2019]![](/sites/default/files/reference_icons/UNICEF%202008%20UNICEF%20Handbook%20on%20Water%20Quality.jpg)
This handbook is a comprehensive a new tool to help UNICEF WASH field professionals, but it will also be useful to other UNICEF staff and for partners in government, other external support agencies, NGOs and civil society. The handbook provides an introduction to all aspects of water quality, with a particular focus on the areas most relevant to professionals working in developing countries. It covers the effects of poor water quality, quality monitoring, the protection of water supplies, methods for improving water quality, and building awareness and capacity related to water quality.
UNICEF (2008): UNICEF Handbook on Water Quality. New York: United Nations Children's Fund (UNICEF) URL [Accessed: 19.05.2019]