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__NOTOC__[[Image:Storage_tank_for_rooftop_harvesting_icon.png|right|80px]][[Image:brickcement.jpg|thumb|right|200px|A brick-cement tank before the application of the cement. Photo: Arrakis and Connect International - [http://www.arrakis.nl/reports/Manual_Fabricating_Brick_Cement_Tanks_short_03_lr.pdf Fabricating Brick Cement Tanks.]]]Brick cement tanks are a low cost option for storing water gained through water harvesting. They are cheaper than ferro-cement tanks and easier to build. In clay areas, be sure to build the tank robustly enough to resist cracking. Ground tanks should always be designed as either hemispherical (half ball shape) or cylindrical because those shapes equalize the pressure of water and soil whether the tanks are full or empty (square or rectangular tanks will always crack).<br>Water extraction can be done using gravity, [[Handpumps]] or other pumps, or with a bucket.

Brick cement tanks are a low cost option ===Suitable conditions===* The area should be suitable for storing water gained through water [[rooftop rainwater harvesting]]. Volumes can be 0. In general it is cheaper 5 to 30 m3.* Tanks should not be located near a pit latrine/toilet or rubbish or on an ant hill.* Avoid building the tank next to a tree as the roots may undermine the foundation and dry leaves will block gutters.* The height of the gutters should be higher than ferro-cement the proposed tank height.* Do not site tanks and easier where heavy vehicles will pass close to buildtank foundations.

{| border="1" cellpadding=Suitable conditions "5" cellspacing="0" align="none"|-! width="50%" style="background:#efefef;" | Advantages! style="background:#f0f8ff;" | DisadvantagesThe area should be suitable for [[rainwater harvesting]]. Volumes can be 0.5 |-| valign="top" | - Cheaper and easier to 30 m3.build than ferro-cement tanks <br>| valign="top" | - Clay areas require sturdier tanks (more costly) <br>|}

{{procontable | pro=- Cheaper and easier to build than ferro-cement tanks <br>| con===Resilience to changes in the environment=== }}====Drought====

====Operation====Basic water quality testing is recommended during the first year, with further testing when water quality is For more information on drought: [[Resilient WASH systems in doubt. Eg. the 'HACH' pillo test, costing about US$ 1 per test. Treatment to manage microbiological quality is also recommended.drought-prone areas]]

====Maintenance=Construction, operations and maintenance===* Removal '''General advice on cement''': A common cause of debris cracks in structures and linings (e.g. in tanks, dams, waterways, and overhanging vegetation from gutters wells) is errors in mixing and applying the cement. First, it is important that only pure ingredients are used: clean water, clean sand, clean rocks. The materials have to be mixed very thoroughly. Second, the roof (preventing stagnation amount of water in during mixing needs to minimal: the guttersconcrete or cement needs to be just workable (somewhat dry) and not fluid. Lastly, it is requiredessential that during curing the cement or concrete is kept moist at all times, for at least a week. Physical inspection Structures should be covered with plastic, large leaves or other materials during the curing period, and repairing cracks with cement is also neededkept wet regularly.

====Manufacturing===='''Specific advice''':[[Image:Brick cement tank.PNG|thumb|right|150px200px|Construction of a small brick cement tank, Mozambique. Materials consist of (locally produced) bricks (or blocks of hard rock), cement and steel wire. Approximately 1 bag of 50 kg cement per m3 tank volume. The bigger the volume of the tank, the lower the amount of materials (and thus costs) per m3 tank volume. Photo: Arrakis and Connect International - [http://www.arrakis.nl/reports/Manual_Fabricating_Brick_Cement_Tanks_short_03_lr.pdf Fabricating Brick Cement Tanks. ]]] Brick cement tanks are constructed by placing an upright ring of bricks in a circle, with 3 rings of steel wire tightened around them. If the tank diameter is bigger than 2 meters , more rings are needed. A second, third and fourth ring of bricks are added and suitably tightened. Make sure the wrapping of the barbed wire, g 12.5, is tight around the outer side of the tank in a spiral spaced 5 cm at the lower half of the tank, where the greatest strength is needed, and 10 cm on the upper half. Cement is then applied on the inside and outside of the brick walls and to cover the bottom. A metal or PVC outlet pipe can be installed at the bottom. Once the cement has been applied, the tank needs to be covered with paper or plastic and kept wet for 7 days to cure the cement. Another curing option is to fill it up with water after the second day of installation.

Materials consist of (local produced) bricks (or blocks of hard rock), cement and steel wire. Approximately 1 bag of 50 kg cement per m3 tank volume. The bigger the volume of the tank, the lower the amount of materials (and thus costs) per m3 tank volume.  ====Estimated LifespanMaintenance==== ==Cost==* Brick cement tank of 1 m3: 1 bag of cement, 100 bricksBasic water quality testing is recommended during the first year with further testing when water quality is in doubt. Eg. the 'HACH' pillo test, 1 kg of wire costing about US$ 20 1 per test. Treatment to manage microbiological quality is also recommended.* Brick cement tank Removal of 6 m3: 3 bags debris and overhanging vegetation from gutters and the roof (preventing stagnation of cement, 300 bricks, 3 kg of wire US$ 40water in the gutters) is required.  ==Country experiences==Brick * Physical inspection and repairing cracks with cement tanks have been constructed in Nicaragua and Ghana, among other countriesis also needed. ==Manuals==

==Movies=Costs===* Construction [[Image:BrickTank.jpg|thumb|right|200px|This hemispherical tank built of burnt bricks reinforced with barbed wire and chicken mesh is for roof catchment of domestic water. [http://www.youtubeinfonet-biovision.comorg/default/ct/watch?v=KinpClgH180/soilConservation Infonet-IE&amp;feature=related wwwbiovison: Water storage.youtube]]]The cost of underground tanks can be high and variable in cost per m3 of storage (average around US$30-40 per m3 of storage), sometimes a lot more depending on various factors.com * Sub-surface hemispherical tanks made from stone masonry and bricks/watch?v=KinpClgHcement in Ethiopia cost in the range 113 -IE&amp;feature=related ]219 Euro per m3 of storage including all costs, with costs varying with parameters such as trucked water for construction and solidity of construction (more solidly built tanks in clay areas cost more).

==Footnotes=Field experiences==={{#ev:youtube|KinpClgH-IE|200|right|How to build a big tank}}<references* Brick cement tanks have been constructed in Nicaragua and Ghana, among other countries.* [http://en.howtopedia.org/wiki/>How_to_Build_an_Underground_Brick_Dome_Water_Tank How to Build an Underground Brick Dome Water Tank.] Case study in Sri Lanka.

==Acknowledgements=Manuals, videos and links===* [http://www.paceproject.net/UserFiles/File/Water/Brick%20tanks%20for%20storage.pdf Brick tanks for rainwater storage]. Action Sheet 22. PACE.* [http://www.arrakis.nl/reports/Manual_Fabricating_Brick_Cement_Tanks_short_03_lr.pdf Draft Short Manual On Fabricating Brick Cement Tanks]. Arrakis & Connect International, 2006.* [http://www.infonet-biovision.org/default/ct/180/soilConservation Water Storage]. Infonet-biovision.

==References=Acknowledgements===* CARE Nederland, Desk Study: [[Resilient WASH systems in drought-prone areas]]. October 2010.* [http://www.paceproject.net/UserFiles/File/Water/Brick%20tanks%20for%20storage.pdf Brick tanks for rainwater storage]. Action Sheet 22. PACE and SEARNET Rainwater Harvesting Technologies.