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Electrical Engineering and Technology |Электротехника и электротехнологии

LESSON 4

Read the text:                                  WAVE POWER

When winds blow over the world's oceans, they cause waves. The power in such waves, as they gradually build up over very long distances, can be very great – as anyone watching or feeling that power eventually being dissipated on a beach will know.

Various technologies for harnessing the power of waves have been developed over the past few decades, of which the ‘oscillating water column’ (OWC) is perhaps the most widely used. In an OWC, the rise and fall of the waves inside an enclosed chamber alternately blows and sucks air through a special kind of air turbine, which is coupled to a generator to produce electricity.

Wave energy technology is not as fully developed as wind power or photovoltaics, but its potential has recently been re-emphasised by several governments, including that of the UK. Rapid advances in developing and demonstrating the technology can be expected over the coming decade.

All of the renewable energy sources described above – solar, bioenergy, hydropower, wind and wave – are either direct or indirect forms of solar energy. However there are two other renewable sources, tidal and geothermal energy, that do not depend on solar radiation.

Non-solar renewables

Tidal Energy

The energy that causes the slow but regular rise and fall of the tides around our coastlines is not the same as that which creates waves. It is caused principally by the gravitational pull of the moon on the world's oceans. The sun also plays a minor role, not through its radiant energy but in the form of its gravitational pull, which exerts a small additional effect on tidal rhythms.

The principal technology for harnessing tidal energy essentially involves building a low dam, or barrage, across the estuary of a suitable river. The barrage has inlets that allow the rising sea levels to build up behind it. When the tide has reached maximum height, the inlets are closed and the impounded water is allowed to flow back to the sea in a controlled manner, via a turbine-generator system similar to that used in hydroelectric schemes.

The world's largest tidal energy scheme is at La Rance in France, which has a capacity of 240 MW.

There are a few other, smaller, tidal plants in various countries, including Canada, Russia and China. The United Kingdom has one of the world's best potential sites for a tidal energy scheme, in the Severn Estuary. If built, its capacity would be around 8600 MW, much larger than any other single power plant, and it could provide about 6 per cent of current UK electricity demand. But the scheme has not yet been implemented, mainly due to its very high capital cost and concerns about the effects on wildlife in the Severn estuary.

Another, newer tidal energy technology involves the use of underwater turbines (rather like submerged wind turbines) to harness the strong tidal and oceanic currents that flow in certain coastal regions. A 10 kW prototype tidal current turbine was tested at Loch Linne, in Scotland, in 1994, and a larger, 300 kW prototype was tested off the Devon coast in 2002.

The technology is still under development, but its prospects are promising.

 

 

1. Match the left part with the right:

 

1. Ocean waves are caused

a) the oscillating water column

2. Tides are caused

b) by the winds blowing over the world’s oceans

3. Wave energy technology involves

c) by the gravitational pull of the moon on the world’s oceans

4. Tidal energy technology involves

d) a low dam built across the estuary of a river

 

2. Complete the sentences with the suggested words:

any   could   implemented   the   would

If built, its capacity (1)___________ be around 8600 MW, much larger than (2)___________ other single power plant, and it (3)___________ provide about 6 per cent of current UK electricity demand. But the scheme has not yet been (4)___________, mainly due to its very high capital cost and concerns about (5)___________ effects on wildlife.