[[Image:EMAS cistern icon.png|right|100px80px]][[Image:Building a vertical cistern.jpg|thumb|right|300px200px|Building a vertical cistern]]__NOTOC__<small-title />
EMAS Cisterns are underground tanks coated with a thin layer of cement mortar and made waterproof with a pure cement whitewash. It is common for 2-3 cisterns to be constructed per household, particularly when rainwater is the main water source, for a total of 4000-8000 litres of space. An EMAS pump can be installed to pump water from the cistern to local faucets in the house.
EMAS is the acronym for Escuela Móvil de Agua y Saneamiento (Mobile School for Water and Sanitation), in Bolivia, whose director, Wolfgang Eloy Buchner, developed the EMAS pump in the 1990s. EMAS is not only the name of the mobile school for water and sanitation, but also a whole technical and social concept of water and sanitation which includes rain water harvesting, solar water heaters, windpower, hydraulic rams, water treatment, small tanks and sinks, a variety of hand and foot pumps, and ferrocement tanks. The aim of the technologies and systems is to achieve the necessary supply of drinkable water, and water for micro irrigation in rural and sub urban areas.
===Suitable Conditions===
It is suitable in areas where the land is not too rocky or weak, and it is possible to dig reasonably deep into the ground. It can be built in any climate, since temperature or other weather conditions do not affect the tank.
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! width="50%" style="background:#efefef;" | Advantages
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| valign="top" | - A water truck can simply let water fall into the tank by gravity – no pump is required <br>
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===Resilience to changes in the environment===
====Drought effects on cement====
For more information on drought: [[Resilient WASH systems in drought-prone areas]]
===Construction, operations and maintenance=== [[Image:The guide pipe.jpg|thumb|right|300px200px|The bottom of the guide pipe]]
Water can be directly pumped out of the cistern using an EMAS pump.
The cistern needs to be cleaned regularly, particularly if it is being used for flocculation and sediments collect at the bottom. This can be done by removing the pump from the guide pipe and placing it loosely in the tank. Then all the sediments can be pumped up from the entire bottom of the tank.
===Costs===
Costs can be divided as such: 1/3 = cost of materials; 1/3 = cost of transport, labour, etc.; and 1/3 = cost to cover failures, or replacements.
==Field Experiences== ==Manuals, videos, and links===
* VIDEO: [http://vimeo.com/8453929 Storage tanks - underground cistern in sandy soil]. This movie shows how to make an underground cistern in very sandy soil. 19:02 minutes.
* [http://www.lenntech.com/small-community-water-supplies.htm#ixzz2TsbJyNk6 Water supply in small communities], by Lara Fabrizi. Includes how best to manage the planning, construction, and operation and maintenance of water projects or tanks.
===Acknowledgements===
* Buchner, Wolfgang. [http://www.emas-international.de/fileadmin/pics/virtueller_lehrgang/lehrbuecher/water_for_everybody_6_2012.pdf Water for Everybody: A Selection of Appropriate Technologies to be used for Drinkable Water EMAS]. EMAS Water and Basic Sanitation Mobile School. 5th edition, 2006.
