Marine Renewable Energy (Ocean Energy) — Cambridge IELTS 14 Academic 2019 TEST 2 — IELTS Test

Cambridge IELTS 14 Academic 2019 TEST 2

Marine Renewable Energy (Ocean Energy)

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(0:00) Section 4. You will hear part of a lecture on renewable energy that uses the power of (0:09) the sea. First, you have some time to look at questions 31 to 40. Now listen carefully (1:08) and answer questions 31 to 40.
(1:15) Producing enough energy to meet our needs has become a serious problem. Demand is rising (1:22) rapidly because of the world's increasing population and expanding industry. Burning (1:29) fossil fuels, like gas, coal and oil, seriously damages the environment, and they'll eventually (1:36) run out.
(1:38) For a number of years now, scientists have been working out how we can derive energy (1:43) from renewable sources, such as the sun and wind, without causing pollution. Today, I'll (1:52) outline marine renewable energy, also called ocean energy, which harnesses the movement (1:58) of the oceans. (2:01) Marine renewable energy can be divided into three main categories, wave energy, tidal (2:09) energy, and ocean thermal energy conversion, and I'll say a few words about each one.
(2:17) First, wave energy. Numerous devices have been invented to harvest wave energy, with (2:25) names such as wave dragon, the penguin, and mighty whale, and research is going on to (2:33) try and come up with a really efficient method. This form of energy has plenty of potential, (2:40) as the source is constant, and there's no danger of waves coming to a standstill.
(2:48) Electricity can be generated using onshore systems, using a reservoir, or offshore systems. (2:56) But the problem with ocean waves is that they're erratic, with the wind making them travel (3:03) in every direction. This adds to the difficulty of creating efficient technology.
Ideally,
(3:12) all the waves would travel smoothly and regularly along the same straight line. Another drawback (3:20) is that sand and other sediment on the ocean floor might be stopped from flowing normally, (3:27) which can lead to environmental problems. The second category of marine energy that (3:37) I'll mention is tidal energy.
One major advantage of using the tide rather than waves as a source
(3:46) of energy is that it's predictable. We know the exact times of high and low tides for (3:53) years to come. For tidal energy to be effective, the difference (3:59) between high and low tides needs to be at least five metres, and this occurs naturally (4:07) in only about 40 places on Earth.
But the right conditions can be created by constructing
(4:15) a tidal lagoon, an area of seawater separated from the sea. One current plan is to create (4:25) a tidal lagoon on the coast of Wales. This will be an area of water within a bay at Swansea, (4:33) sheltered by a U-shaped breakwater, or dam, built out from the coast.
The breakwater will
(4:41) contain 16 hydro turbines, and as the tide rises, water rushes through the breakwater, (4:49) activating the turbines, which turn a generator to produce electricity. Then, for three hours (4:57) as the tide goes out, the water is held back within the breakwater, increasing the difference (5:03) in water level until it's several metres higher within the lagoon than in the open sea. Then, (5:11) in order to release the stored water, gates in the breakwater are opened.
It pours powerfully
(5:19) out of the lagoon, driving the turbines in the breakwater in the opposite direction, (5:24) and again generating thousands of megawatts of electricity. As there are two high tides (5:32) a day, this lagoon scheme would generate electricity four times a day, every day, for a total of (5:40) around 14 hours in every 24, and enough electricity for over 150,000 homes. This system has quite (5:51) a lot in its favour.
Unlike solar and wind energy, it doesn't depend on the weather.
(5:58) The turbines are operated without the need for fuel, so it doesn't create any greenhouse (6:03) gas emissions, and very little maintenance is needed. It's estimated that electricity (6:09) generated in this way will be relatively cheap, and that manufacturing the components would (6:16) create more than 2,000 jobs, a big boost to the local economy.
On the other hand, there
(6:24) are fears that lagoons might harm both fish and birds, for example by disturbing migration (6:30) patterns and causing a build-up of silt, affecting local ecosystems. There are other forms of (6:39) tidal energy, but I'll go on to the third category of marine energy, ocean thermal energy (6:46) conversion. This depends on there being a big difference in temperature between surface (6:53) water and the water a couple of kilometres below the surface, and this occurs in tropical (7:00) coastal areas.
The idea is to bring cold water up to the surface using a submerged pipe.
(7:08) The concept dates back to 1881. That is the end of section 4. You now have (7:20) half a minute to check your answers.

Part 4 of 4

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