Perspectives are different frameworks from which to explore the knowledge around sustainable sanitation and water management. Perspectives are like filters: they compile and structure the information that relate to a given focus theme, region or context. This allows you to quickly navigate to the content of your particular interest while promoting the holistic understanding of sustainable sanitation and water management.
This handbook serves as a practical guideline featuring best practice for RWH in small island Caribbean environments. It covers the most important topics on RTRWH using helpful illustrations and pictures.
CEHI (2009): Caribbean Rainwater Harvesting Handbook. Castries: Caribbean Environmental Health Institute (CEHI) URL [Visita: 12.03.2019] PDF
This paper describes a case study of a house in Kathmandu where rainwater is used for all purposes including drinking, greywater is recycled for non drinkable purposes and human excreta is utilized as a fertilizer by adopting ecological sanitation technique.
SHRESTHA, R.R. (2010): Eco Home for Sustainable Water Management- A Case Study in Kathmandu. Kathmandu: United Nation Development Program (UNDP) URL [Visita: 12.03.2019] PDF
This booklet explains how to collect, store and purify rainwater for direct use at household level. It is a practical guide to creating a rainwater harvesting infrastructure from design to implementation that is illustrated with pictures, tables and examples.
HATUM, T. WORM, J. (2006): Rainwater Harvesting for Domestic Use. Wageningen: Agrosima and CTA URL [Visita: 12.03.2019] PDF
Water harvesting has been practiced successfully for millennia in parts of the world – and some recent interventions have also had significant local impact. Yet water harvesting’s potential remains largely unknown, unacknowledged and unappreciated. These guidelines cover a wide span of technologies from large-scale floodwater spreading to practices that collect and store water from household compounds.
MEKDASCHI STUDER, R. LINIGER, H. (2013): Water Harvesting. Guidelines to Good Practice. Bern/Amsterdam/Wageningen/Rome: Centre for Development and Environment (CDE), Rainwater Harvesting Implementation Network (RAIN), MetaMeta, The International Fund for Agricultural Development (IFAD) URL [Visita: 12.03.2019] PDF
This RURAL WATER SUPPLY DESIGN MANUAL is the first of three related volumes prepared for the use of prospective and actual owners, operators, managements, technical staff, consultants, government planners and contractors of small Level III and Level II water supply systems in the Philippines.
THE WORLD BANK (2012): Rural Water Supply Design Manual. Volume I. Manila: The World Bank Office Manila URL [Visita: 11.03.2019] PDF
This field note is written for water well drilling enterprises as well as other agencies, which manage, or are involved in drilling projects. Using a step-by-step approach it gives clear guidance on how to cost and price the construction of drilled water wells. It also provides tips on business management with an emphasis of the realities faced in many countries in Sub-Saharan Africa.
DANERT, K. LUUTU, A. CARTER, R. OLSCHWESKI, A. (2010): Costing and Pricing. A Guide for Water Well Drilling Enterprises. St. Gallen: Rural Water Supply Network (RWSN) URL [Visita: 11.03.2019] PDF
As the quality of water can be seriously affected by a disaster or an emergency, it is best practice to disinfect all emergency water supplies. The most common way of disinfecting is with chlorine. This technical note explains why disinfection is important, why chlorine is used, how it works, how to test for its presence and where and when to test.
REED, B. (2011): Measuring Chlorine Levels in Water Supplies. Technical Notes on WASH in Emergencies #11. Leicestershire: Water, Engineering and Development Centre (WEDC) URL [Visita: 11.03.2019] PDF
As the quality of water can be seriously affected by a disaster or an emergency, it is best practice to disinfect all emergency water supplies. The most common way of disinfecting is with chlorine. This technical note explains why disinfection is important, why chlorine is used, how it works, how to test for its presence and where and when to test.
REED, B. (2013): Measuring Chlorine Levels in Water Supplies. Technical Notes on WASH in Emergencies #11. Geneva: World Health Organization (WHO) URL [Visita: 11.03.2019] PDF
This booklet seeks to suggest ways in which funds can be better used for making safe water available to the poor by illustrating how drilling costs can be reduced without compromising water quality, water quantity, or the productive life of the borehole.
WURZEL, P. (2001): Drilling Boreholes for Handpumps. (= Working Papers on Water Supply and Environmental Sanitation , 2 ). St. Gallen: Swiss Centre for Development Cooperation in Technology and Management (SKAT) URL [Visita: 11.03.2019] PDF
Well rehabilitation is defined as restoring a well to its most efficient condition by various treatments or reconstruction methods (groundwater and wells). This continuing education unit discusses the causes of deteriorating well performance and methods, both traditional and more recently introduced methods.
ISWD (n.y): Well Rehabilitation. Lakeland, FL: International School of Well Drilling (ISWD) URL [Visita: 11.03.2019] PDF
The Code of Practice sets out nine principles that relate directly to the practicalities of borehole construction. They should be adhered to in order to provide cost-effective boreholes.
DANERT, K. ARMSTRONG, T. ADEKILE, D. DUFFAU, B. OUEDRAOGO, I. KWEI, C. (2010): Code of Practice for Cost Effective Boreholes. St. Gallen: Rural Water Supply Network (RWSN) URL [Visita: 11.03.2019] PDF
Many people living in coastal regions rely on shallow groundwater for their water supply. Seawater flooding after a severe storm or tsunami can damage wells and contaminate the groundwater. This technical note provides advice for rehabilitating wells in such circumstances.
VILHOLTH (2011): Cleaning Wells after Seawater Flooding. Technical Notes on WASH in Emergencies #15. Leicestershire: Water, Engineering and Development Centre (WEDC) URL [Visita: 11.03.2019] PDF
This study reviews the situation in the drilling sector in Tanzania, assesses options, and identifies support areas.
BAUMANN, E. BALL, P. BEYENE, A. (2005): Rationalization of Drilling Operations in Tanzania. Review of the Borehole Drilling Sector in Tanzania. St. Gallen: Rural Water Supply Network (RWSN) URL [Visita: 11.03.2019] PDF
This field note has been written for managers of water supply programmes and projects. It provides a step-by-step guide on the siting of drilled water wells. As a first step, the essential requirements for a simple groundwater model are set out, including some basic explanations to help the reader establish a sound understanding of hydrogeology.
CARTER, R. CHILTON, J. DANERT, K. OLSCHEWSKI, A. (2010): Siting of Drilled Water Wells. A Guide for Project Managers. St. Gallen: Rural Water Supply Network (RWSN) URL [Visita: 11.03.2019] PDF
The Minnesota Department of Health (MDH) is advising well owners that private water wells contaminated with floodwater can pose a health risk. This brochure proposes what measures should be taken to protect wells from flooding.
MDH (2011): Flood Precautions For Private Water Wells. St. Paul, MN: Minnesota Department of Health (MDH) URL [Visita: 11.03.2019] PDF
RWSN, with support of the Water and Sanitation Programme of the World Bank (WSP-AF) is supporting the formation of a Nigerian Drillers Association. This report provides an overview of the Nigerian drilling environment and sets out the first stage of the process of establishing the association.
ADEKILE, D. (2007): The Drilling Environment and Establishing a Drillers Association in Nigeria. Summary Report. St. Gallen: Rural Water Supply Network (RWSN) URL [Visita: 11.03.2019] PDF
