I. Answer the following question and read the text below to check your answer.
How do we get electricity from water?
Vocabulary
elevation [‚elə'veɪʃən] поднятие, возвышение
current [’kʌrənt] поток, ток
intake['ɪn‚teɪk] впускное, приемное устройство
wicket ['wɪkɪt] заслонка
conductor [kən'dʌktə] проводник
load [ləud] нагрузка
adjustment[ə'dʒʌstmənt] регулировка, наладка
to attach [ə’tætʃ] прикреплять, присоединять
to rotate [rɔu’teɪt] вращать
facilities [fə’sɪlətɪz] устройства, оборудование
shaft [ʃæft] вал
conventional [kən’venʃnəl] общепринятый
to fall through the penstock выпускать из шлюза (плотины)
storage pool водохранилище
tailrace нижний бьеф, отводящий канал
Hydroelectric Power: How it Works
So just how do we get electricity from water? Actually, hydroelectric and coal-fired power plants produce electricity in a similar way. In both cases a power source is used to turn a propeller-like generator, which then turns a metal shaft in an electric generator, which is the motor that produces electricity. A coal-fired power plant uses steam to turn the turbine blades; whereas a hydroelectric plant uses falling water to turn the turbine. The results are the same (see Fig. 1).
Fig. 1. How hydroelectric power works
The theory is to build a dam on a large river that has a large drop in elevation. The dam stores lots of water behind it in the reservoir. Near the bottom of the dam wall there is the water intake. Gravity causes it to fall through the penstock inside the dam. At the end of the penstock there is a turbine propeller, which is turned by the moving water. The shaft from the turbine goes up into the generator, which produces the power. Power lines are connected to the generator to carry electricity to your home. The water continues past the propeller through the tailrace into the river past the dam.
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As to how this generator works, the Corps of Engineers explains it this way: «A hydraulic turbine converts the energy of flowing water into mechanical energy. Hydroelectric generator converts this mechanical energy into electricity. The operation of a generator is based on the principles discovered by Faraday. He found that when a magnet is moved past a conductor, it causes electricity to flow. In a large generator, electromagnets are made by circulating direct current through loops of wire wound around stacks of magnetic steel laminations. These are called field poles, and are mounted on the perimeter of the rotor. The rotor is attached to the turbine shaft, and rotates at a fixed speed. When the rotor turns, it causes the field poles (the electromagnets) to move past the conductors mounted in the stator. This, in turn, causes electricity to flow and a voltage to develop at the generator output terminals» (see Fig. 2).
Fig. 2. Generator
Demand for electricity is not «flat» and constant. Demand goes up and down during the day, and overnight there is less need for electricity in homes, businesses, and other facilities. Hydroelectric plants are more efficient at providing for peak power demands during short periods than are fossil- fuel and nuclear power plants, and one way of doing that is by using «pumped storage», which reuses the same water more than once.
Pumped storage is a method of keeping water in reserve for peak period power demands by pumping water that has already flowed through the turbines back up a storage pool above the power plant at a time when customer demand for energy is low, such as during the middle of the night. The water is then allowed to flow back through the turbine-generators at times when demand is high and a heavy load is placed on the system.
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The reservoir acts much like a battery, storing power in the form of water when demands are low and producing maximum power during daily and seasonal peak periods. An advantage of pumped storage is that hydroelectric generating units are able to start up quickly and make rapid adjustment in output. They operate efficiently when used for one hour or several hours. Because pumped storage reservoirs are relatively small, construction costs are generally low compared with conventional hydropower facilities.
II. Answer the following questions:
1. What does a coal-fired power plant use to turn the turbine blades?
2. What does a hydroelectric plant use to turn the turbine?
3. Where is the water intake?
4. What is a turbine propeller turned by?
5. Does the generator produce the power?
6. Is demand for electricity «flat» and constant? Why? Why not?
7. What is «pumped storage»?
8. Does a reservoir act much like a battery? Why? Why not?
9. Why are construction costs generally low compared with conventional hydropower facilities?
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