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Hydro Electric Power Essay Research Paper HYDROELECTRIC

Hydro Electric Power Essay, Research Paper

HYDROELECTRIC POWER

The idea of electricity started around 500 B.C. as the Greek philosopher Thales experimented with amber, a fossilized tree sap, by rubbing it and observing that it starts to attract certain types of materials, this is the first documented study of static electricity. In 1646 the term electricity was coined by Walter Charlton to describe the attraction of the different materials. Throughout the 1700’s many advancements in the study of electricity were made to include the idea of ferrous and non ferrous elements, the storage of an electrical charge is successful, and in 1794 the first battery was successfully used, up till this time the only forms of electricity was static. 1831 the first electric generator is produced by Micheal Faraday, just after the generator was produced Joseph Henry takes the idea of the generator and uses the principles to create the electric motor. The main use to turn the generators was fossil fuels, and the need to find alternatives to power the generators turned to hydropower, the use of water energy to turn the turbines that in turn power the generators that produce electricity. 1880 the Grand Rapids Electric Light and Power Company use a dynamo, belted to a water turbine to power 16 brush arc lamps to light the Wolverine Chair Factory, 1881 saw the use of hydropower to generate electricity to power the streetlights in the city of Niagara Falls. The next

Five years saw the growth of 45 water-powered electric plants in the United States and Canada. The first hydropower plant in the west opened in San Bernardino, Ca., in 1887, by the end of 1889 there were some 200 water-powered plants in the United States, from 1907-1920 the total of all electricity being produced by hydro-plants grew from 15% to 25% total production. With quick growth of hydro-powered plants, the Government set the Federal Powers Act this set in place the Federal Powers Commission authority to issue licenses for hydro development on public lands. 1937 saw the first Federal dam start operations on the Columbia River, 1937 40% of all power being generated is by the use of hydro-plants. Over the next sixty-three years the use of hydro powered plants drop to just 10% of total electric production in the United States. With the new restrictions on the environment and cost of fossil fuels new ventures into the use of hydro-powered plants are being looked at. The following are types of hydro-plants and how they work.

Impoundment

An impoundment facility, typically a large hydropower system, uses a dam to store river water in a reservoir. The water may be released either to meet changing electricity needs or to maintain a constant reservoir level. Diversion

A diversion, sometimes called run-of-river, facility channels a portion of

A river through a canal or penstock. It may not require the use of a dam.

Pumped Storage

When the demand for electricity is low, a pumped storage facility stores

energy by pumping water from a lower reservoir to an upper reservoir.

During periods of high electrical demand, the water is released back to

the lower reservoir to generate electricity.

After looking at the types of power productions there are different sizes of

plants in relationship to the type of power consumed, Facilities range in size from large power plants that supply many consumers with electricity to small and micro plants that individuals operate for their own energy needs or to sell power to utilities.

Large Hydropower

Although definitions vary, DOE defines large hydropower as facilities that have a capacity of more than 30 megawatts.

Small Hydropower

Although definitions vary, DOE defines small hydropower as facilities that have a capacity of .01 to 30 megawatts.

Micro Hydropower:

A micro hydropower plant has a capacity of up to 100 kilowatts (0.1 megawatts)

Turbine Technologies

There are many types of turbines used for hydropower, and they are chosen based on their particular application and the height of standing water—referred to as “head”—available to drive them. The turning part of the turbine is called the runner. The most common turbines are as follows: Pelton Turbine

A Pelton turbine has one or more jets of water impinging on the buckets of a runner that looks like a water wheel. The Pelton turbines are used for high-head sites (50 feet to 6,000 feet) and can be as large as 200 megawatts.

Francis Turbine

A Francis turbine has a runner with fixed vanes, usually nine or more. The water enters the turbine in a radial direction with respect to the shaft, and is discharged in an axial direction. Francis turbines will operate from 10 feet to 2,000 feet of head and can be as large as 800 megawatts.

Propeller Turbine

A propeller has a runner with three to six fixed blades, like a boat

Propeller. The water passes through the runner and drives the blades. Propeller turbines can operate from 10 feet to 300 feet of head and can be

as large as 100 megawatts. A Kaplan turbine is a type of propeller turbine

in which the pitch of the blades can be changed to improve performance.

Environmental Issues and Mitigation

Current hydropower technology, while essentially emission-free, can have undesirable environmental effects, such as fish injury and mortality

from passage through turbines, as well as detrimental effects on the quality of downstream water. A variety of mitigation techniques are in use now and environmentally friendly turbines are under development.

Electric Utility Net Generation of Electricity

(Based on 1998 total kilowatt hours generation)

Electric Utility Net Generation by Renewables

(Based on 1998 total kilowatt hours generation)

Diversion hydropower – channels a portion of the river through a canal or penstock, but may require a dam. The project below, The Tazimina project in Alaska, did not require a dam.

Impoundment hydropower – uses a dam to store water. Water may be released either to meet changing electricity needs or to maintain a constant water level.

The Hydrologic Cycle: Water constantly moves through a vast global cycle, in which it evaporates from lakes and oceans, forms clouds, precipitates as rain or snow, then flows back to the ocean. The energy of this water cycle, which is driven by the sun, it tapped most efficiently with hydropower.

Inside: Hydropower Generator

1. Water flows through the dam and turns a large wheel called a turbine. The turbine turns a shaft, which rotates a series of magnets past copper coils and a generator to produce electricity. The process produces clean renewable energy.

2. The Kaplan Head is the hydraulic associated with adjustable blades on the turbine. Adjustable blades operate efficiently despite variations in water flow and energy demands.

3. The rotor is a series of magnets. It’s the rotating portion of the generator where the magnetic field is created.

4. The stator is the stationary part of the generator made of coils of copper wire. Electricity is produced as the rotors spin past the stationary wiring.

5. The shaft connects the turbine to the rotor section of the generator. All three elements, the turbine, shaft, and rotor turn at the same speed of 90 revolutions per minute.

6. The wicket gates are a series of 20 adjustable vanes, resembling vertical blinds. They control the volume of water flowing through the turbine.

7. The 172-ton hydraulic turbine resembles a large water wheel. The turbine converts the energy of falling water into mechanical energy to drive the generator.

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1. The Alliance to Save Energy

1200 18th Street, NW, Suite 900

Washington, DC 20036

Phone: 202/857-0666 Fax: 202/331-9588

info@ase.org www.ase.org

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