1 / 10

ELECTRICITY GENERATION

ELECTRICITY GENERATION. A Close Look at Hydroelectric Dams, Generators and Coal Power Plants. Electrical Generation. Generators create electricity when their internal components ( rotors ) rotate within their external housing ( stator )

dinesh
Télécharger la présentation

ELECTRICITY GENERATION

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. ELECTRICITY GENERATION A Close Look at Hydroelectric Dams, Generators and Coal Power Plants

  2. Electrical Generation • Generators create electricity when their internal components (rotors) rotate within their external housing (stator) • This rotation requires some form of power to spin the generator shaft. • Most power plants use a turbine blade to rotate the shaft. • A source of power is required to rotate the turbines. Turbine and Generator

  3. Power Sources • Coal • Oil • Nuclear • Wind • Solar • Hydroelectric • Wood • Tidal • Geothermal Non-renewable Sources Renewable Sources

  4. How A Hydroelectric Dam Works • The dam builds up a reservoir of water. • This reservoir is higher up than the next portion of the river/waterway. • The dam opens up and lets water flow down the penstock. • At the bottom of the penstock is a turbine blade. • As the water flows across the turbine, the blade spins. This in turn spins the generator shaft.

  5. Hydroelectric Dam Continued • The faster the generator shaft spins, the faster the internal components in the generator spin. • This rotational energy is then transformed into electrical energy. • The amount of energy a dam can use is controlled by the height of the dam, or the volume of water that flows through a dam. • There is little, to no emissions caused by a dam. • However, dams interfere with natural waterways and/or flood large expanses of land.

  6. Electricity flows through power lines forebay transformer screen generator penstock generator shaft turbine river tailrace A Hydroelectric Dam The water flows down the penstock, spins the turbine and exits through the tailrace. This is a relatively clean source of electricity with little to no emissions.

  7. Coal Power Plants • Coal plants burn coal to create electricity. • The burning coal heats up a water boiler. • The boiling water turns into steam. • This steam is directed towards turbine causing the turbine to spin (see dam note). • The power output can be controlled by the amount of coal being burned and the volume of steam flowing through the system. • The steam is then condensed back into water to be used again.

  8. Pros and Cons of Coal • Pros: Currently coal is cheap and we have plenty of it. • Cons: Creates a lot of carbon dioxide and can produce sulfer dioxide which turns into sulfuric acid (acid rain) • Coal mining can be environmentally damaging. Coal Plant Smoke Stacks

  9. Strip Mining Coal Pit

  10. Coal Powered Electricity Plant The burning coal heats the water in the boiler. The steam it creates spins the turbine which rotates the generator shaft. This source of power creates harmful emissions.

More Related