A water wheel is a means of extracting power from the flow (or fall) of water; otherwise known as hydropower. Water wheels were widely used in the Middle Ages to power industry in Europe. The alternatives were the windmill and human and animal power. The most common use of the water wheel was to mill flour in gristmills, but other uses included foundry work and machining, and pounding linen for use in paper.

A water wheel consists of a large wooden or metal wheel, with a number of blades or buckets arranged on the outside rim forming the driving surface. Most commonly, the wheel is mounted vertically on a horizontal axle, but the tub or Norse wheel is mounted horizontally on a vertical shaft. Vertical wheels can transmit power either through the axle or via a ring gear and typically drive belts or gears; horizontal wheels usually directly drive their load.

A flowing stream was often dammed in order to maintain a steady supply of water for the mill; the dammed water would form a mill pond. A channel created for the water to follow while flowing to or from a water wheel is a mill race (also spelled millrace) or simply a "race", and is customarily divided into sections. The race bringing water from the mill pond to the water wheel is a headrace; the one carrying water after it has left the wheel is commonly referred to as a tailrace.

For more information see the following links:

• History of Water Wheel Technology
• Types of Waterwheels
• Watermills

Waterwheel Gallery

An overshot water wheel standing 42 feet high powers the Old Mill at Berry College in Rome, Georgia, USA	Two types of hydraulic-powered chain pumps from the Tiangong Kaiwu of 1637, written by the Ming Dynasty encyclopedist Song Yingxing (1587-1666).
Sequence of wheels found in Rio Tinto mines	Water wheel powering small village mill in Museum of Folk Architecture, Uzhhorod, Ukraine
The norias in Hama on the Orontes River	Undershot water wheel
The Anderson Mill is undershot, backshot, and overshot using two sources of water. This allows the speed of the wheel to be controlled	A view of the water wheel at the Quarry Bank cotton mill. It is still working and powers the looms.
Overshot water wheel	A backshot waterwheel at New Lanark World Heritage Site, Scotland.
Iced water wheel	Detail of a backshot waterwheel at New Lanark, Scotland

References

• Morton, W. Scott and Charlton M. Lewis (2005). China: Its History and Culture. New York: McGraw-Hill, Inc.
• Needham, Joseph (1986). Science and Civilization in China: Volume 4, Part 2. Taipei: Caves Books, Ltd.
• Pacey, Arnold, Technology in World Civilization: A Thousand-year History, The MIT Press; Reprint edition (July 1, 1991). ISBN 0262660725.
• Reynolds, Terry S., Stronger Than a Hundred Men: A History of the Vertical Water Wheel, (1983), Johns Hopkins University Press. ISBN 0801872480.
• D. M. Nuernbergk: Wasserräder mit Kropfgerinne - Berechnungsgrundlagen und neue Erkenntnisse Verlag Moritz Schäfer, Detmold 2005
• D. M. Nuernbergk: Wasserräder mit Freihang - Entwurfs- und Berechnungsgrundlagen Verlag Moritz Schäfer, Detmold 2007

External links

• Esay/audio clip
• Glossary of water wheel terms
• Persian Wheel in India, 1814-1815 painting with explanatory text, at British Library website.
• Water wheel history
• Waterwheel Factory, with pictures of water wheels
• WaterHistory.org - Several articles concerning water wheels
• - Aintreewoodcraft.com Garden waterwheel
• Computer simulation of an undershot waterwheel
• Computer simulation of an overshot waterwheel