Difference between revisions of "Elevated storage tanks"

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{{Language-box|english_link= Elevated storage tanks | french_link= Réservoirs de stockage surélevés | spanish_link= Coming soon | hindi_link= Coming soon | malayalam_link= Coming soon | tamil_link= Coming soon | swahili_link=coming soon | korean_link= Coming soon | chinese_link=Coming soon | indonesian_link= Coming soon | japanese_link= Coming soon }}
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Elevated tanks do not require the continuous operation of pumps, as it will not affect the distribution system since the pressure is maintained by gravity. Strategic location of the tank can equalize water pressures in the distribution system.  However, precise water pressure can be difficult to manage in some elevated tanks.   
 
Elevated tanks do not require the continuous operation of pumps, as it will not affect the distribution system since the pressure is maintained by gravity. Strategic location of the tank can equalize water pressures in the distribution system.  However, precise water pressure can be difficult to manage in some elevated tanks.   
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The pressure of the water flowing out of an elevated tank depends on the depth of the water in the tank.  A nearly empty tank probably will not provide enough pressure while a completely full tank may provide too much pressure.  The optimal pressure is achieved at only one depth (which is even more specific for standpipes than for tanks elevated on legs). The length of the standpipe causes continual and highly unequal pressures on the distribution system. In addition, a significant quantity of the water in a standpipe is required to produce the necessary water pressure.  The water below a certain level is therefore used only as a support, unless booster pumps are available for emergency use of this water.   
 
The pressure of the water flowing out of an elevated tank depends on the depth of the water in the tank.  A nearly empty tank probably will not provide enough pressure while a completely full tank may provide too much pressure.  The optimal pressure is achieved at only one depth (which is even more specific for standpipes than for tanks elevated on legs). The length of the standpipe causes continual and highly unequal pressures on the distribution system. In addition, a significant quantity of the water in a standpipe is required to produce the necessary water pressure.  The water below a certain level is therefore used only as a support, unless booster pumps are available for emergency use of this water.   
  
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|style="background:#efefef;"|[[Image:Deep_well_pump_icon.png|center|80px|link=Reinforced concrete reservoir]]
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|style="background:#efefef;"|[[Image:Reinforced_concrete_reservoir small.jpg|center|100px|link=Reinforced concrete reservoir]]
|style="background:#efefef;"|[[Image:Deep_well_pump_icon.png|center|80px|link=Elevated steel reservoir]]
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|style="background:#efefef;"|[[Image:Elevated_steel_reservoir small.jpg|center|100px|link=Elevated steel reservoir]]
|style="background:#efefef;"|[[Image:Deep_well_pump_icon.png|center|80px|link=Commercial elevated tanks]]
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|style="background:#efefef;"|[[Image:250px-Commercial_elevated_tanks small.jpg|center|100px|link=Commercial elevated tanks]]
|style="background:#efefef;"|[[Image:Deep_well_pump_icon.png|center|80px|link=Elevated plastic tanks]]
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|style="background:#efefef;"|[[Image:elevated plastic small.png|center|100px|link=Elevated plastic tanks]]
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|style="background:#efefef;"|[[Image:Reinforced_concrete_reservoir small.jpg|center|120px|link=Reinforced concrete reservoir]]
 
|style="background:#efefef;"|[[Image:Elevated_steel_reservoir small.jpg|center|120px|link=Elevated steel reservoir]]
 
|style="background:#efefef;"|[[Image:250px-Commercial_elevated_tanks small.jpg|center|120px|link=Commercial elevated tanks]]
 
|style="background:#efefef;"|[[Image:elevated plastic small.png|center|120px|link=Elevated plastic tanks]]
 
 
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|style="background:#efefef;"|<div class="center" style="width:auto; margin-left:auto; margin-right:auto;">[[Reinforced_concrete_reservoir|Reinforced <br>concrete reservoir]]</div>
 
|style="background:#efefef;"|<div class="center" style="width:auto; margin-left:auto; margin-right:auto;">[[Reinforced_concrete_reservoir|Reinforced <br>concrete reservoir]]</div>
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===Field experiences===
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The following project(s) is utilizing an elevated tank.
 
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|[[Image:akvorsr logo_lite.png|center|60px|link=http://akvo.org/products/rsr/]]
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|[[Image:project 822.png |thumb|center|140px|<font size="2"><center>[http://rsr.akvo.org/project/822/ RSR Project 822]<br>Urban WASH II <br>in Monrovia</center></font>|link=http://rsr.akvo.org/project/822/]]
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===Elevated storage tanks links===
 
===Elevated storage tanks links===
 
* [http://www.teamlandmark.com/water_storage/composite_elevated_tank/cost_advantage Cost advantage of the composite elevated tank.] Landmark.
 
* [http://www.teamlandmark.com/water_storage/composite_elevated_tank/cost_advantage Cost advantage of the composite elevated tank.] Landmark.
 
* [http://www.ehow.com/list_6022500_advantages-elevated-water-towers.html#ixzz1A2MOrfjt Advantages for Elevated Water Towers.] By Dennis Hartman, eHow Contributor.
 
* [http://www.ehow.com/list_6022500_advantages-elevated-water-towers.html#ixzz1A2MOrfjt Advantages for Elevated Water Towers.] By Dennis Hartman, eHow Contributor.
* [http://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=12&ved=0CEoQFjABOAo&url=http%3A%2F%2Fwww.caldwellwatertanks.com%2Fdownloads%2Fwater_quality%2Fwater_quality_of_elev_tanks.pdf&ei=Hpu9T5WMDvLUiAKD9Zn8Aw&usg=AFQjCNG3uHT86lfGlp90vFTV1NHAyeCsFw&sig2=uVSzmIsWvrhBGap8Zh9hsg Mitigating the Impacts of Elevated Water Storage Tanks on Water Quality.] Stantec Inc.
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* [http://www.caldwellwatertanks.com/downloads/water_quality/water_quality_of_elev_tanks.pdf Mitigating the Impacts of Elevated Water Storage Tanks on Water Quality.] Stantec Inc.
  
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===Acknowledgements===
 
===Acknowledgements===
* [http://water.me.vccs.edu/courses/env110/lesson10.htm Lesson 10: Water Tank Design and Maintenance.] Mountain Empire Community College.
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* Lesson 10: Water Tank Design and Maintenance. Mountain Empire Community College.

Latest revision as of 19:42, 28 June 2020

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Elevated tanks do not require the continuous operation of pumps, as it will not affect the distribution system since the pressure is maintained by gravity. Strategic location of the tank can equalize water pressures in the distribution system. However, precise water pressure can be difficult to manage in some elevated tanks.

The pressure of the water flowing out of an elevated tank depends on the depth of the water in the tank. A nearly empty tank probably will not provide enough pressure while a completely full tank may provide too much pressure. The optimal pressure is achieved at only one depth (which is even more specific for standpipes than for tanks elevated on legs). The length of the standpipe causes continual and highly unequal pressures on the distribution system. In addition, a significant quantity of the water in a standpipe is required to produce the necessary water pressure. The water below a certain level is therefore used only as a support, unless booster pumps are available for emergency use of this water.

While elevated tanks provide the best pressure, they are far-more expensive and generally, only used where supply is in high demand.


Reinforced concrete reservoir small.jpg
Elevated steel reservoir small.jpg
250px-Commercial elevated tanks small.jpg
Elevated plastic small.png


Field experiences

The following project(s) is utilizing an elevated tank.

Akvorsr logo lite.png
RSR Project 822
Urban WASH II
in Monrovia


Elevated storage tanks links

Acknowledgements

  • Lesson 10: Water Tank Design and Maintenance. Mountain Empire Community College.