Hydropower
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Hydropower
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Undershot water wheels on the Orontes River in Hama, Syria
Saint Anthony Falls
Energy Portal
Hydropower is the capture of the energy of moving water for some useful purpose. Prior to the widespread availability of commercial electric power, hydropower was used for irrigation, milling of grain, textile manufacture, and the operation of sawmills. The energy of moving water has been exploited for centuries; in Imperial Rome, water powered mills produced flour from grain, and in China and the rest of the Far East, hydraulically operated “pot wheel” pumps raised water into irrigation canals. In the 1830s, at the peak of the canal-building era, hydropower was used to transport barge traffic up and down steep hills using inclined plane railroads. Direct mechanical power transmission required that industries using hydropower had to locate near the waterfall. For example, during the last half of the 19th century, many grist mills were built at Saint Anthony Falls, utilizing the 50 foot (15 metre) drop in the Mississippi River. The mills contributed to the growth of Minneapolis. Today the largest use of hydropower is for electric power generation, which allows low cost energy to be used at long distances from the watercourse.

Contents
[hide]
 1 Types of water power
o 1.1 Hydroelectric power
o 1.2 Tidal power
 1.2.1 Tidal stream power
o 1.3 Wave power
 2 Physics
 3 Small scale hydro power
 4 See also
 5 References
 6 External links
[edit] Types of water power
There are many forms of water power:
 Waterwheels , used for hundreds of years to power mills and machinery
 Hydroelectric energy, a term usually reserved for hydroelectric dams.
 Tidal power, which captures energy from the tides in horizontal direction
 Tidal stream power, which does the same vertically
 Wave power, which uses the energy in waves
[edit] Hydroelectric power
Main article: Hydroelectricity
Hydraulic turbine and electrical generator.
Hydroelectric power now supplies about 715,000 MWe or 19% of world electricity (16% in 2003). Large dams are still being designed. Apart from a few countries with an abundance of it, hydro power is normally applied to peak load demand because it is readily stopped and started. Nevertheless, hydroelectric power is probably not a major option for the future of energy production in the developed nations because most major sites within these nations are either already being exploited or are unavailable for other reasons, such as environmental considerations.

Hydropower produces essentially no carbon dioxide or other harmful emissions, in contrast to burning fossil fuels, and is not a significant contributor to global warming through CO2.

Hydroelectric power can be far less expensive than electricity generated from fossil fuel or nuclear energy. Areas with abundant hydroelectric power attract industry. Environmental concerns about the effects of reservoirs may prohibit development of economic hydropower sources.

The chief advantage of hydroelectric dams is their ability to handle seasonal (as well as daily) high peak loads. When the electricity demands drop, the dam simply stores more water (which provides more flow when it releases). Some electricity generators use water dams to store excess energy (often during the night), by using the electricity to pump water up into a basin. Electricity can be generated when demand increases. In practice the utilization of stored water in river dams is sometimes complicated by demands for irrigation which may occur out of phase with peak electrical demands.

[edit] Tidal power
Main article: Tidal power
Harnessing the tides in a bay or estuary has been achieved in France (since 1966), Canada and Russia, and could be achieved in other areas with a large tidal range. The trapped water turns turbines as it is released through the tidal barrage in either direction. Another possible fault is that the system would generate electricity most efficiently in bursts every six hours (once every tide). This limits the applications of tidal energy.

[edit] Tidal stream power
A relatively new technology, tidal stream generators draw energy from currents in much the same way that wind generators do. The higher density of water means that a single generator can provide significant power. This technology is at the early stages of development and will require more research before it becomes a significant contributor.

Several prototypes have shown promise. In the UK in 2003, a 300 kW Periodflow marine current propeller type turbine was tested off the coast of Devon, and a 150 kW oscillating hydroplane device, the Stingray, was tested off the Scottish coast. Another British device, the Hydro Venturi, is to be tested in San Francisco Bay.

The Canadian company Blue Energy has plans for installing very large arrays tidal current devices mounted in what they call a tidal fence in various locations around the world, based on a vertical axis turbine design.

[edit] Wave power
Main article: Wave power
Harnessing power from ocean surface wave motion might yield much more energy than tides. The feasibility of this has been investigated,

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Widespread Availability Of Commercial Electric Power And Water Wheels. (April 14, 2021). Retrieved from https://www.freeessays.education/widespread-availability-of-commercial-electric-power-and-water-wheels-essay/