Tidal Power Reading Answers - IELTS Reading Practice Test
International English Language Testing System ( IELTS )
Practising reading passages like "Tidal Power" is crucial for several reasons. First, engaging with such texts enhances your comprehension skills by helping you understand and interpret information, identify main ideas, and identify supporting details. Second, reading specialised passages introduces you to specific terminology and concepts, expanding your vocabulary and improving your language skills. Such practice is essential for IELTS exam preparation, as these passages are common in Academic IELTS that assess comprehension skills. Regular practice helps familiarise you with the format and types of questions asked. Solving this reading passage will help you enhance the understanding of the True/False/Not Given and Summary Completion question types, thus improving your focus, concentration and band scores.
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Click here to download the answer key of IELTS Academic Cambridge 9, Test 3.
IELTS Prep Tips for Tidal Power Reading Passage
| Tips | Details | Example |
|---|---|---|
| Skim and Scan the Passage | Quickly read through the passage to understand tidal turbines and their potential for renewable energy. | Paragraph A: Operating principle of sea turbines. Paragraph B: Identified power sites. |
| Identify the Main Idea of Each Paragraph | Summarise each paragraph to capture its central theme. | - Paragraph A: Predictable power from tidal currents. - Paragraph B: Sites and capacity. |
| Focus on Keywords and Synonyms | Highlight terms like “tidal currents,” “marine turbines,” and “renewable energy,” and use synonyms for clarity. | Example: "Marine turbines" = "sea turbines"; "Predictable power" = "constant energy source." |
| Practice Identifying Yes/No/Not Given Statements | Understand the writer’s stance on energy potential and technology feasibility. | Example: The passage states that tidal turbines could outpace wind power in reliability. |
| Be Aware of Paraphrasing | Recognise alternative expressions for similar ideas, especially for turbine designs and environmental impact. | Example: "Hostile sea environment" = "saline environment"; "Fish safety" = "slow blades." |
| Manage Your Time | Focus on easier questions first, like those about advantages of tidal turbines, then move to technical details. | Example: Start with questions on environmental benefits before addressing cavitation issues. |
| Improve Vocabulary Knowledge | Learn terms like “cavitation,” “marine turbine,” and “renewable grid connection” to aid comprehension. | Example: “Cavitation” = “air bubble formation”; “Marine turbine farm” = “undersea turbine site.” |
| Review Your Answers | Verify answers for accuracy, especially technical terms or site names mentioned in the passage. | Example: Double-check terms like "Pentland Firth," "Alderney," and "Southampton research." |
| Write Answers in UPPERCASE | Use uppercase to ensure clarity and avoid errors in technical terms or names. | Example: PENTLAND FIRTH, MARINE TURBINES, CAVITATION. |
| Practice with Similar Passages | Read other passages about renewable energy technologies to build familiarity with such topics. | Example: Passages on wind energy, wave power, or sustainable energy research projects. |
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Tidal Power Reading Passage
The passage "Tidal Power" is inspired by Cambridge 9, Test 3. You should spend about 20 minutes on Questions 1-13, which are based on the reading passage below.
A
Operating on the same principle as wind turbines, the power in sea turbines comes from tidal currents, which turn blades similar to ships’ propellers, but, unlike wind, the tides are predictable, and the power input is constant. The technology raises the prospect of Britain becoming self-sufficient in renewable energy and drastically reducing its carbon dioxide emissions. If tide, wind, and wave power are all developed, Britain would be able to close gas, coal and nuclear power plants and export renewable power to other parts of Europe. Unlike wind power, which Britain originally developed and then abandoned for 20 years, allowing the Dutch to make it a major industry, undersea turbines could become a big export earner to island nations such as Japan and New Zealand.
B
Tidal sites have already been identified as producing one-sixth or more of the UK’s power - and at prices competitive with modern gas turbines and undercutting those of the already ailing nuclear industry. One site alone, the Pentland Firth, between Orkney and mainland Scotland, could produce 10% of the country’s electricity with banks of turbines under the sea, and another at Alderney in the Channel Islands three times the 1,200 megawatts of Britain’s largest and newest nuclear plant, Sizewell B, in Suffolk. Other sites identified include the Bristol Channel and the west coast of Scotland, particularly the channel between Campbeltown and Northern Ireland.
C
Work on designs for the new turbine blades and sites is well advanced at the University of Southampton’s sustainable energy research group. The first station is expected to be installed off Lynmouth in Devon shortly to test the technology in a venture jointly funded by the Department of Trade and Industry and the European Union. Abu Bakr Bahaj, in charge of the Southampton research, said: The prospects for energy from tidal currents are far better than from wind because the flows of water are predictable and constant. The technology for dealing with the hostile saline environment under the sea has been developed in the North Sea oil industry, and much is already known about turbine blade design because of wind power and ship propellers. There are a few technical difficulties, but I believe in the next five to ten years, we will be installing commercial marine turbine farms.’ Southampton has been awarded £215,000 over three years to develop the turbines and is working with Marine Current Turbines, a subsidiary of IT power, on the Lynmouth project. EU research has now identified 106 potential sites for tidal power, 80% of which are around the coasts of Britain. The best sites are between islands or around heavily indented coasts where there are strong tidal currents.
D
A marine turbine blade needs to be only one-third of the size of a wind generator to produce three times as much power. The blades will be about 20 metres in diameter, so around 30 metres of water is required. Unlike wind power, there are unlikely to be environmental objections. Fish and other creatures are thought unlikely to be at risk from the relatively slow-turning blades. Each turbine will be mounted on a tower which will connect to the national power supply grid via underwater cables. The towers will stick out of the water and be lit to warn shipping. They will also be designed to be lifted out of the water for maintenance and to clean seaweed from the blades.
E
Dr Bahaj has done most work on the Alderney site, where there are powerful currents. The single undersea turbine farm would produce far more power than needed for the Channel Islands, and most would be fed into the French grid and imported into Britain via the cable under the Channel.
F
One technical difficulty is cavitation, where low pressure behind a turning blade causes air bubbles. These can cause vibration and damage the blades of the turbines. Dr Bahaj said: ‘We have to test a number of blade types to avoid this happening or at least make sure it does not damage the turbines or reduce performance. Another slight concern is submerged debris floating into the blades. So far, we do not know how much of a problem it might be. We will have to make the turbines robust because the sea is a hostile environment, but all the signs that we can do it are good.
Tidal Power Reading Mock Test
Tidal Power Reading Questions & Answers
Do the following statements agree with the information given in Reading Passage?
In boxes 1-7 on your answer sheet, write:
TRUE - If the statement agrees with the information
FALSE - If the statement contradicts the information
NOT GIVEN - If there is no information on this
1. Tidal power is a more reliable source of energy than wind power.
Answer: TRUE
Answer Location: Paragraph A, Line 2
Explanation: “unlike wind, the tides are predictable, and the power input is constant.” The passage mentions that tidal currents, like wind turbines, turn blades. However, unlike wind, tides are predictable, and the power input is constant. This makes tidal power more reliable than wind power.
2. It is expected that tidal power will replace all other forms of energy in Britain.
Answer: NOT GIVEN
Answer Location: Paragraph A, Line 4
Explanation: "If tide, wind, and wave power are all developed, Britain would be able to close gas, coal and nuclear power plants and export renewable power to other parts of Europe." The writer does not claim that tidal power would replace all other forms of energy, only that it would significantly contribute and allow for the closure of many power plants.
3. Wave energy could be a means of increasing national income.
Answer: TRUE
Answer Location: Paragraph 1, Line 6
Explanation: "Undersea turbines could become a big export earner to island nations such as Japan and New Zealand." This line suggests a potential increase in national income.
4. Tidal sites identified in the UK will be more expensive than modern gas turbines.
Answer: FALSE
Answer Location: Paragraph B, Line 2
Explanation: “at prices competitive with modern gas turbines and undercutting those of the already ailing nuclear industry.” The passage indicates that tidal sites will produce power at prices competitive with modern gas turbines, suggesting they are not more expensive but rather comparable or cheaper.
5. The site at Alderney could produce twice as much electricity as Britain’s largest nuclear plant.
Answer: FALSE
Answer Location: Paragraph B, Line 4
Explanation: The paragraph signifies that the Alderney site could produce three times the electricity of Sizewell B, not twice. “at Alderney in the Channel Islands three times the 1,200 megawatts of Britain’s largest and newest nuclear plant, Sizewell B”.
6. Tidal power is best produced in the vicinity of coastlines with particular features.
Answer: TRUE
Answer Location: Paragraph C, Last Line
Explanation: “The best sites are between islands or around heavily indented coasts where there are strong tidal currents.” It can be inferred that the best tidal power sites are between islands or around heavily indented coasts where strong tidal currents are present.
7. Compensation for the shortage of inland sites for energy production can be done by tidal power.
Answer: NOT GIVEN
Answer Location: Paragraph C, Last Line
Explanation: The passage does not discuss compensating for a shortage of inland sites. Instead, it focuses on coastal and underwater locations.
Tidal Power Reading Questions for Practice
Complete the summary below.
Write NO MORE THAN TWO WORDS from the text for each answer.
| An Undersea Turbine Each turbine will be set up on top of a tower that can connect 8.__________ to the electrical power grid. The whole tower can be raised for 9. _______ and the extraction of seaweeds from the blades. Sea life is not in danger because the blades are comparatively 10. __________. Air bubbles result from the 11. _______ behind the blades, this is known as 12. _________. These carry the potential to cause tremors and affect the turbine 13. _________. |
Answers for Questions 8-13
Answer 8: UNDERWATER
Answer Location: Paragraph D, Line 4
Explanation: “ Each turbine will be mounted on a tower which will connect to the national power supply grid via underwater cables.” Thus, it can be seen that underwater cables connect the turbines to the national power supply grid.
Answer 9: MAINTENANCE
Answer Location: Paragraph D, Line 6
Explanation: “The towers will stick out of the water and be lit, to warn shipping, and also be designed to be lifted out of the water for maintenance and to clean seaweed from the blades.” Therefore,iIn addition to being lighted and protruding out of the water to alert ships, the towers are made to be pulled out of the water for maintenance and to remove seaweed from the blades.
Answer 10: SLOW (TURING)
Answer Location: Paragraph D, Line 4
Explanation: “Fish and other creatures are thought unlikely to be at risk from the relatively slow-turning blades.” The passage notes that slow-turning blades are expected to pose little threat to fish and other wildlife.
Answer 11: LOW-PRESSURE
Answer Location: Paragraph F, Line 1
Explanation: “One technical difficulty is cavitation, where low pressure behind a turning blade causes air bubbles.” It can be understood that low pressure behind a rotating blade causes cavitation, which results in air bubbles.
Answer 12: CAVITATION
Answer Location: Paragraph F, Line 1
Explanation: “One technical difficulty is cavitation, where low pressure behind a turning blade causes air bubbles.” Thus, cavitation occurs due to low pressure.
Answer 13: BLADES
Answer Location: Paragraph F, Line 2
Explanation: “One technical difficulty is cavitation, where low pressure behind a turning blade causes air bubbles. These can cause vibration and damage the blades of the turbines.” Cavitation can cause vibration and damage to the turbine blades.
Additional Reading Passages for Practice
Statement of Purpose
Letter of Recommendation
Student Visa Application
Admission Essay Writing
Student Curriculum Vitae
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