Difference between revisions of "Hydraulic Ram pump"

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[[Image:ram_hydrolic_pump.jpg|right]]
 
[[Image:ram_hydrolic_pump.jpg|right]]
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[[Image:PrincipleHydraulicRam.jpg|thumb|right|150px|Principle of a Hydraulic Ram pump. ]]
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[[Image:HydraulicRamChildren.jpg|thumb|right|150px|Children standing around a hydraulic ram pump produced by AIDF, Phillippines ]]
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A hydraulic ram pump is a water pump powered by water. In areas where natural flows exist with a height difference of the water over a small distance, hydraulic ram pumps can be used to transport water to higher grounds without using electricity or fuel, by using the energy in the speed of the flow to pump a portion of the water up to a much higher level.
  
A hydraulic ram pump is a water pump powered by water. In areas where natural flows exist with a height difference of the water over a small distance, hydraulic ram pumps can be used to transport water to higher grounds without using electricity or fuel, by using the energy in the speed of the flow to pump a portion of the water up to a much higher level.
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In recent years the hydraulic ram pump has seen a renewed interest, because it is powered by sustainable energy, and can be produced locally.
  
[[Image:PrincipleHydraulicRam.jpg|thumb|right|150px|Principle of a Hydraulic Ram pump. ]]
 
  
[[Image:HydraulicRamChildren.jpg|thumb|right|150px|Children standing around a hydraulic ram pump produced by AIDF, Phillippines ]]
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The device utilizes the water hammer effect to develop pressure that allows a portion of the input water that powers the pump to be lifted to a point higher than where the water originally started. The hydraulic ram is sometimes used in remote areas, where there is both a source of low-head hydropower, and a need for pumping water to a destination higher in elevation than the source. In this situation, the ram is often useful, since it requires no outside source of power other than the kinetic energy of water.
  
  
<b>Hydraulic Ram pumps</b>
 
  
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==History and social context==
  
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==Suitable conditions ==
 
{{procontable | pro=
 
{{procontable | pro=
 
- Uses renewable energy sources. <br>
 
- Uses renewable energy sources. <br>
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- Water with height difference is needed<br>
 
- Water with height difference is needed<br>
 
}}
 
}}
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==Technical specification==
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A hydraulic ram has only two moving parts, a spring or weight loaded "waste" valve sometimes known as the "clack" valve and a "delivery" check valve, making it cheap to build, easy to maintain, and very reliable. In addition, there is a drive pipe supplying water from an elevated source, and a delivery pipe, taking a portion of the water that comes through the drive pipe to an elevation higher than the source.
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 +
 +
 +
====Operation====
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A simplified hydraulic ram is shown in the figure. Initially, the waste valve [4] is open, and the delivery valve [5] is closed. The water in the drive pipe [1] starts to flow under the force of gravity and picks up speed and kinetic energy until it forces the waste valve closed. The momentum of the water flow in the supply pipe against the now closed waste valve causes a water hammer that raises the pressure in the pump, opens the delivery valve [5], and forces some water to flow into the delivery pipe [3].
 +
 +
Because this water is being forced uphill through the delivery pipe farther than it is falling downhill from the source, the flow slows; when the flow reverses, the delivery check valve closes. If all water flow has stopped, the loaded waste valve reopens against the now static head, which allows the process to begin again.
 +
 +
A pressure vessel containing air [6] cushions the hydraulic pressure shock when the waste valve closes, and it also improves the pumping efficiency by allowing a more constant flow through the delivery pipe. Although, in theory, the pump could work without it, the efficiency would drop drastically and the pump would be subject to extraordinary stresses that would shorten its life considerably. One problem is that the pressurized air will gradually dissolve into the water until none remains.  A simple solution to this problem is to introduce a so-called snifting valve that automatically inserts a small bubble of air with each pump cycle.[5]
 +
 +
====Maintenance====
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Some common operational problems are intrusion of air into the drive pipe, blockage of the intake or valves with debris, knocking due to having too little air in the pressure vessel, freezing in winter and bursting of the delivery pipe if its output is blocked or not pressure relieved.
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 +
====Manufacturing ====
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The optimum length of the drive pipe is five-to-twelve times the vertical distance between the source and the pump, or 500-to-1000 times the diameter of the delivery pipe, whichever is less. This length of drive pipe typically results in a period between pulses of one-to-two seconds. A typical efficiency is 60%, but up to 80% is possible. The drive pipe is ordinarily straight but can be curved or even wound in a spiral. The main requirement is that it be inelastic, strong, and rigid; otherwise, it would greatly diminish the efficiency.
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 +
==Cost==
 +
 +
==Country experiences==
 +
 +
==Manuals==
 +
 +
==Movies==
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 +
==External links==
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==References==
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* This article is adapted from the Wikipedia article [http://en.wikipedia.org/wiki/Hydraulic_ram Hydraulic Ram]
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== Capacity ==
 
== Capacity ==
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* [http://en.wikipedia.org/wiki/Ram_pump | General explanation on wikipedia]
 
* [http://en.wikipedia.org/wiki/Ram_pump | General explanation on wikipedia]
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* [http://en.wikipedia.org/wiki/Hydraulic_ram General explanation on wikipedia]
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 +
 
* [http://www.ashdenawards.org/winners/aidfoundation | Article on the AID Foundation hydraulic ram, winner of the Ashden Award in 2007]
 
* [http://www.ashdenawards.org/winners/aidfoundation | Article on the AID Foundation hydraulic ram, winner of the Ashden Award in 2007]
 
* [http://www2.warwick.ac.uk/fac/sci/eng/research/dtu/pubs/tr/lift/ | Several in-depth articles on the function and construction of hydraulic rams, including detailed drawings of a low-cost and tested design. Development Technology Unit (DTU), University of Warwick, UK]
 
* [http://www2.warwick.ac.uk/fac/sci/eng/research/dtu/pubs/tr/lift/ | Several in-depth articles on the function and construction of hydraulic rams, including detailed drawings of a low-cost and tested design. Development Technology Unit (DTU), University of Warwick, UK]
 
* [http://www.clemson.edu/irrig/Equip/ram.htm | Low cost self made pump]
 
* [http://www.clemson.edu/irrig/Equip/ram.htm | Low cost self made pump]
 
* [http://www.judyofthewoods.net/ram_pump.html | another low tech pump design]
 
* [http://www.judyofthewoods.net/ram_pump.html | another low tech pump design]

Revision as of 14:09, 5 May 2009

Image: 50 pixels This article is under development. You can help Akvopedia by expanding it.

Ram hydrolic pump.jpg
Principle of a Hydraulic Ram pump.
Children standing around a hydraulic ram pump produced by AIDF, Phillippines

A hydraulic ram pump is a water pump powered by water. In areas where natural flows exist with a height difference of the water over a small distance, hydraulic ram pumps can be used to transport water to higher grounds without using electricity or fuel, by using the energy in the speed of the flow to pump a portion of the water up to a much higher level.

In recent years the hydraulic ram pump has seen a renewed interest, because it is powered by sustainable energy, and can be produced locally.


The device utilizes the water hammer effect to develop pressure that allows a portion of the input water that powers the pump to be lifted to a point higher than where the water originally started. The hydraulic ram is sometimes used in remote areas, where there is both a source of low-head hydropower, and a need for pumping water to a destination higher in elevation than the source. In this situation, the ram is often useful, since it requires no outside source of power other than the kinetic energy of water.


History and social context

Suitable conditions

Advantages Disadvantages/limitations
- Uses renewable energy sources.

- If properly designed, can be produced and maintained locally.
- Very effective in mountaneous areas

- Water with height difference is needed


Technical specification

A hydraulic ram has only two moving parts, a spring or weight loaded "waste" valve sometimes known as the "clack" valve and a "delivery" check valve, making it cheap to build, easy to maintain, and very reliable. In addition, there is a drive pipe supplying water from an elevated source, and a delivery pipe, taking a portion of the water that comes through the drive pipe to an elevation higher than the source.


Operation

A simplified hydraulic ram is shown in the figure. Initially, the waste valve [4] is open, and the delivery valve [5] is closed. The water in the drive pipe [1] starts to flow under the force of gravity and picks up speed and kinetic energy until it forces the waste valve closed. The momentum of the water flow in the supply pipe against the now closed waste valve causes a water hammer that raises the pressure in the pump, opens the delivery valve [5], and forces some water to flow into the delivery pipe [3].

Because this water is being forced uphill through the delivery pipe farther than it is falling downhill from the source, the flow slows; when the flow reverses, the delivery check valve closes. If all water flow has stopped, the loaded waste valve reopens against the now static head, which allows the process to begin again.

A pressure vessel containing air [6] cushions the hydraulic pressure shock when the waste valve closes, and it also improves the pumping efficiency by allowing a more constant flow through the delivery pipe. Although, in theory, the pump could work without it, the efficiency would drop drastically and the pump would be subject to extraordinary stresses that would shorten its life considerably. One problem is that the pressurized air will gradually dissolve into the water until none remains. A simple solution to this problem is to introduce a so-called snifting valve that automatically inserts a small bubble of air with each pump cycle.[5]

Maintenance

Some common operational problems are intrusion of air into the drive pipe, blockage of the intake or valves with debris, knocking due to having too little air in the pressure vessel, freezing in winter and bursting of the delivery pipe if its output is blocked or not pressure relieved.

Manufacturing

The optimum length of the drive pipe is five-to-twelve times the vertical distance between the source and the pump, or 500-to-1000 times the diameter of the delivery pipe, whichever is less. This length of drive pipe typically results in a period between pulses of one-to-two seconds. A typical efficiency is 60%, but up to 80% is possible. The drive pipe is ordinarily straight but can be curved or even wound in a spiral. The main requirement is that it be inelastic, strong, and rigid; otherwise, it would greatly diminish the efficiency.

Cost

Country experiences

Manuals

Movies

External links

References

  • This article is adapted from the Wikipedia article Hydraulic Ram




Capacity

A hydraulic ram pump is powered by a body of water flowing downhill with a height difference. A general rule of thumb is that the water can be pumped 30 times as high as the available drive head (the height difference of the water driving the pump). So a head of 1 m can be used to pump up water to ~30m, while a 7 m head can pump water up to 210 m.

The capacity of a hydraulic ram depends on the scale of the pump, which is often measured in the diameter of the tube delivering the water to the pump. Pumps exist in the range 1" up to 5".

With height difference, the actual difference in vertical height is meant, not the length measured along the slope.

Costs

Additional opportunities

Movies

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External links