Friday, March 20, 2015

NA1º. TEST 5 PACK


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Hydroelectric power - energy from falling water
Introduction
We have used running water as an energy source for thousands of years, mainly to grind corn.
The first house in the world to be lit by hydroelectricity was Cragside House, in Northumberland, England, in 1878.
In 1882 on the Fox river, in the USA, hydroelectricity produced enough power to light two paper mills and a house.
Nowadays there are many hydro-electric power stations, providing around 20% of the world's electricity. The name comes from "hydro", the Greek word for water. How it works
A dam is built to trap water, usually in a valley where there is an existing lake.
Water is allowed to flow through tunnels in the dam, to turn turbines and thus drive generators.
Notice that the dam is much thicker at the bottom than at the top, because the pressure of the water increases with depth.
Hydro-electric power stations can produce a great deal of power very cheaply
Advantages
  • Once the dam is built, the energy is virtually free.
  • No waste or pollution produced.
  • Much more reliable than wind, solar or wave power.
  • Water can be stored above the dam ready to cope with peaks in demand.
  • Hydro-electric power stations can increase to full power very quickly, unlike other power stations.
· Electricity can be generated constantly.
Disadvantages
  • The dams are very expensive to build.
    However, many dams are also used for flood control or irrigation, so building costs can be shared.
  • Building a large dam will flood a very large area upstream, causing problems for animals that used to live there.
  • Finding a suitable site can be difficult - the impact on residents and the environment may be unacceptable.
· Water quality and quantity downstream can be affected, which can have an impact on plant life.
Is it renewable?
Hydro-electric power is renewable. The Sun provides the water by evaporation from the sea, and will keep on doing so.
/www.darvill.clara.net/altenerg/hydro.htm  TEST 5 PACK