Archimedes screw

Revision as of 22:32, 4 September 2020 by Jon (talk | contribs) (Modern uses)

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Revision as of 22:32, 4 September 2020 by Jon (talk | contribs) (Modern uses)

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Farmers in Egypt's Nile delta turn a traditional (enclosed) screw by hand to irrigate a field. Photo: Waterencyclopedia.com
Archimedes' screw was operated by hand and could raise water efficiently. Animated GIF: Wolfram Demonstrations Project.
An Egyptian farmer turning an Archimedes screw by hand to irrigate a field. Photo: Helen and Frank Schreider of the National Geographic staff.

The Archimedes Screw (named after a Greek mathematician) is though to have been around since 250 B.C.E. However, archaeological evidence has led others to posit its earlier invention in Assyria (modern day Iraq) or Egypt; Archimedes simply improved upon an earlier design.

The Archimedes Screw is basically a large helix, open at both ends and encased within a watertight cylinder. It operates with the cylinder somewhat tilted from vertical. When the open lower end of the cylinder is placed in water and the screw is turned, water trapped between the cylinder and the threads of the screw rises. Successive revolutions will raise the water thread-by-thread until it emerges at the top of the cylinder.

It can be used where the water needs to be raised less than 1.5 meters (5 feet). In such cases, it is perhaps the most efficient of the ancient methods, because two men can raise an enormous volume of water in less than an hour. The Archimedes Screw has been widely used over the centuries, especially to raise irrigation water and for land drainage, often being powered by people or animals. Besides being of simple construction, it has the additional advantage of being able to move water that contains mud, sand, or gravel.

There are two types of the Archimedes Screw:

  • The open screw, which rotates in a trough. It consists of a torque tube to which spiral flightsare attached, a lower submerged bearing, an upper radial and thrust bearing, a gear reducer (typically driven by an electric motor), and a trough in which the screw rotates at a constant speed. The limiting speed ranges from 20 rev/min in large pumps to 75 rev/min in small ones and cannot be exceeded without water spilling over the top of the screw.
  • The enclosed screw, in which both the screw and an enclosing cylinder rotate. Except for the following differences, the enclosed screw pump is similar to the open type:

- Because the flights are welded to the outer cylinder, there is no slippage (backflow). If the pump is stopped, the water is retained between the flights. The lower bearing (a self-aligning set of rollers mounted above the highwater level) is easily accessible. The rollers carry most of the radial load.
- Because there is no slippage, the efficiency of the pump is very high and stays high even at low discharge.
- A massive concrete structure is not needed.

Modern uses

The Archimedes Screw is still used today in some limited applications (usually electrically-powered), and can range in size from a quarter of an inch to nearly 4 meters (12 feet) in diameter. A large screw or banks of screws may be used to pump rainstorm runoff or to lift water or wastewater, for example.

Archimedes' screws, now called screw conveyors, are also used today primarily to propel dry bulk materials. However, if you do not have access to a generator pump and need a low-tech solution to raise water, it doesn't get much easier and low-tech than an Archimedes' screw. 1

Contents

Suitable conditions

The distribution, today, of the water lifting Archimedes Screw is in the Nile-delta region of Egypt.

A major advantage of these pumps is variable pumping at constant speed, because the output (up to design capacity) is controlled by the sump level and equals the influent flow rate. The disadvantages are the inducement of turbulence, the release of odors and other volatile substances (if using for wastewater), and the relatively high initial cost (if using metal components, but not wooden). But when comparing costs with those of other types of pumps, consider the cost of the total system, including all piping, wet or dry wells, screens, fittings, valves, variable-speed controls, and other accessories as well as operating and maintenance costs. Note that operators like screw pumps because the good ones, when properly installed, are so trouble-free. 2

Construction, operations and maintenance

This small scale Archimedes Screw is a model to understand the concept of the water lifting device. The ones built by farmers are made of bamboo or other wood, usually. A working Archimedes Screw can be made using local (or cheap) materials in your region. The following device is an open screw.

Materials

  • Handle
  • PVC tube
  • Hose pipe

Construct it

  1. Measure the distance from the water source to where you want to pump it. Cut the PVC tube to measure.
  2. Tape a handle to the top of the PVC hose. The handle is optional, but it will help you pump faster. The longer the handle, the easier it will be to turn the pipe.
  3. Tape one end of the hose to the bottom of the PVC tube with the duct tape. Allow the hose to overlap the tube by 1 inch. Be generous with the masking tape to ensure the hose does not move when you start pumping.
  4. Twist the hose around the PVC pipe in a corkscrew pattern. Tape the hose to the top of the PVC pipe. Again allow for an inch or two overlap and cut the hose. This will allow the water to drain out of the hose as you turn the PVC pipe.

This simple screw pump can be viewed as a series of ramps around a central axle. As you turn the PVC pipe, you carry the water in small lifts from one ramp to another until it pours out of the top. It is much easier to pump water with a conveyor screw than to lift the water vertically, just like walking along a winding mountain path is easier than climbing straight up.

Manuals, videos and links

Tornillo de Arquímedes /
Archimedes' screw


References

  1. How to build and hand-powered water pump. By Andrew Latham, eHow Contributor.
  2. Pumps and Pumping Stations, 3rd Class. By Dr. Sataa Al-Bayati. University of Technology - Iraq.

Acknowledgements