托福阅读真题题目:
Electricity from Wind
Since 1980, the use of wind to produce electricity has been growing rapidly. In 1994 there were nearly 20,000 wind turbines worldwide, most grouped in clusters called wind farms that collectively produced 3,000 megawatts of electricity. Most were in Denmark (which got 3 percent of its electricity from wind turbines) and California (where 17,000 machines produced 1 percent of the state’s electricity, enough to meet the residential needs of a city as large as San Francisco). In principle, all the power needs of the United States could be provided by exploiting the wind potential of just three states—North Dakota, South Dakota, and Texas.
Large wind farms can be built in six months to a year and then easily expanded as needed. With a moderate to fairly high net energy yield, these systems emit no heat-trapping carbon dioxide or other air pollutants and need no water for cooling; manufacturing them produces little water pollution. The land under wind turbines can be used for grazing cattle and other purposes, and leasing land for wind turbines can provide extra income for farmers and ranchers.
Wind power has a significant cost advantage over nuclear power and has become competitive with coal-fired power plants in many places. With new technological advances and mass production, projected cost declines should make wind power one of the world’s cheapest ways to produce electricity. In the long run, electricity from large wind farms in remote areas might be used to make hydrogen gas from water during periods when there is less than peak demand for electricity. The hydrogen gas could then be fed into a storage system and used to generate electricity when additional or backup power is needed.
Wind power is most economical in areas with steady winds. In areas where the wind dies down, backup electricity from a utility company or from an energy storage system becomes necessary. Backup power could also be provided by linking wind farms with a solar cell, with conventional or pumped-storage hydropower, or with efficient natural-gas-burning turbines. Some drawbacks to wind farms include visual pollution and noise, although these can be overcome by improving their design and locating them in isolated areas.
Large wind farms might also interfere with the flight patterns of migratory birds in certain areas, and they have killed large birds of prey (especially hawks, falcons, and eagles) that prefer to hunt along the same ridge lines that are ideal for wind turbines. The killing of birds of prey by wind turbines has pitted environmentalists who champion wildlife protection against environmentalists who promote renewable wind energy. Researchers are evaluating how serious this problem is and hope to find ways to eliminate or sharply reduce this problem. Some analysts also contend that the number of birds killed by wind turbines is dwarfed by birds killed by other human-related sources and by the potential loss of entire bird species from possible global warming. Recorded deaths of birds of prey and other birds in wind farms in the United States currently amount to no more than 300 per year. By contrast, in the United States an estimated 97 million birds are killed each year when they collide with buildings made of plate glass, 57 million are killed on highways each year; at least 3.8 million die annually from pollution and poisoning; and millions of birds are electrocuted each year by transmission and distribution lines carrying power produced by nuclear and coal power plants.
The technology is in place for a major expansion of wind power worldwide. Wind power is a virtually
unlimited source of energy at favorable sites, and even excluding environmentally sensitive areas, the global potential of wind power is much higher than the current world electricity use. In theory, Argentina, Canada, Chile, China, Russia, and the United Kingdom could use wind to meet all of their energy needs. Wind power experts project that by the middle of the twenty-first century wind power could supply more than 10 percent of the world’s electricity and 10-25 percent of the electricity used in the United States.
Paragraph 1: Since 1980, the use of wind to produce electricity has been growing rapidly. In 1994 there were nearly 20,000 wind turbines worldwide, most grouped in clusters called wind farms that collectively produced 3,000 megawatts of electricity. Most were in Denmark (which got 3 percent of its electricity from wind turbines) and California (where 17,000 machines produced 1 percent of the state’s electricity, enough to meet the residential needs of a city as large as San Francisco). In principle, all the power needs of the United States could be provided by exploiting the wind potential of just three states—North Dakota, South Dakota, and Texas.
本文是托福阅读风力发电原文解析及答案。
1. Based on the information in paragraph 1, which of the following best explains the term wind farms?
○Farms using windmills to pump water
○Research centers exploring the uses of wind
○Types of power plant common in North Dakota
○Collections of wind turbines producing electric power
Paragraph 2: Large wind farms can be built in six months to a year and then easily expanded as needed. With a moderate to fairly high net energy yield, these systems emit no heat-trapping carbon dioxide or other air pollutants and need no water for cooling; manufacturing them produces little water pollution. The land under wind turbines can be used for grazing cattle and other purposes, and leasing land for wind turbines can provide extra income for farmers and ranchers.
2. The word “emit” in the passage is closest in meaning to
○use
○require
○release
○destroy
Paragraph 3: Wind power has a significant cost advantage over nuclear power and has become competitive with coal-fired power plants in many places. With new technological advances and mass production, projected cost declines should make wind power one of the world’s cheapest ways to produce electricity. In the long run, electricity from large wind farms in remote areas might be used to make hydrogen gas from water during periods when there is less than peak demand for electricity. The hydrogen gas could then be fed into a storage system and used to generate electricity when additional or backup power is needed.
Paragraph 4: Wind power is most economical in areas with steady winds. In areas where the wind dies down, backup electricity from a utility company or from an energy storage system becomes necessary. Backup power could also be provided by linking wind farms with a solar cell, with conventional or pumped-storage hydropower, or with efficient natural-gas-burning turbines. Some drawbacks to wind farms include visual pollution and noise, although these can be overcome by improving their design and locating them in isolated areas.
3. Based on the information in paragraph 3 and paragraph 4, what can be inferred about the states of North Dakota, South Dakota, and Texas mentioned at the end of paragraph 1?
○They rely largely on coal-fired power plants.
○They contain remote areas where the winds rarely die down.
○Over 1 percent of the electricity in these states is produced by wind farms.
○Wind farms in these states are being expanded to meet the power needs of the United States.
4. According to paragraph 3, which of the following is true about periods when the demand for electricity is relatively low?
○These periods are times when wind turbines are powered by hydrogen gas.
○These periods provide the opportunity to produce and store energy for future use.
○These periods create storage problems for all forms of power generation.
○These periods occur as often as periods when the demand for electricity is high.
5. In paragraph 4, the author states that in areas where winds are not steady
○power does not reach all customers
○wind farms cannot be used
○solar power is more appropriate
○backup systems are needed
6. According to paragraph 4, what can be inferred about the problems of visual pollution and noise associated with wind farms?
○Both problems affect the efficiency of wind farms.
○Possible solutions are known for both problems.
○Wind power creates more noise than visual pollution.
○People are more concerned about visual pollution than noise.
Paragraph 5: Large wind farms might also interfere with the flight patterns of migratory birds in certain areas, and they have killed large birds of prey (especially hawks, falcons, and eagles) that prefer to hunt along the same ridge lines that are ideal for wind turbines. The killing of birds of prey by wind turbines has pitted environmentalists who champion wildlife protection against environmentalists who promote renewable wind energy. Researchers are evaluating how serious this problem is and hope to find ways to eliminate or sharply reduce this problem. Some analysts also contend that the number of birds killed by wind turbines is dwarfed by birds killed by other human-related sources and by the potential loss of entire bird species from possible global warming. Recorded deaths of birds of prey and other birds in wind farms in the United States currently amount to no more than 300 per year. By contrast, in the United States an estimated 97 million birds are killed each year when they collide with buildings made of plate glass, 57 million are killed on highways each year; at least 3.8 million die annually from pollution and poisoning; and millions of birds are electrocuted each year by transmission and distribution lines carrying power produced by nuclear and coal power plants.
7. The phrase “this problem” in the passage refers to
○Interference with the flight patterns of migrating birds in certain areas
○Building ridge lines that are ideal for wind turbines
○The killing of birds of prey by wind turbines
○Meeting the demands of environmentalists who promote renewable wind energy
8. Which of the sentences below best expresses the essential information in the highlighted sentence in the passage? Incorrect choices change the meaning in important ways or leave out essential information.
○Hawks, falcons, and eagles prefer to hunt along ridge lines, where wind turbines can kill large numbers of migratory birds.
○Wind turbines occasionally cause migratory birds to change their flight patterns and therefore may interfere with the areas where birds of prey prefer to hunt.
○Some of the best locations for large wind farms are places that may cause problems for migrating birds and birds of prey.
○Large wind farms in certain areas kill hawks, falcons, and eagles and thus might create a more ideal path for the flight of migratory birds.
9. In paragraph 5, why does the author give details about the estimated numbers of birds killed each year?
○To argue that wind farms should not be built along ridge lines
○To point out that the deaths of migratory birds exceed the deaths of birds of prey
○To explain why some environmentalists oppose wind energy
○To suggest that wind turbines result in relatively few bird deaths
10. The phrase “amount to” in the passage is closest in meaning to
○can identify
○change
○are reduced by
○total
Paragraph 6: The technology is in place for a major expansion of wind power worldwide. Wind power is a virtually unlimited source of energy at favorable sites, and even excluding environmentally sensitive areas, the global potential of wind power is much higher than the current world electricity use. In theory, Argentina, Canada, Chile, China, Russia, and the United Kingdom could use wind to meet all of their energy needs. Wind power experts project that by the middle of the twenty-first century wind power could supply more than 10 percent of the world’s electricity and 10-25 percent of the electricity used in the United States.
11. The word “project” in the passage is closest in meaning to
○estimate
○respond
○argue
○plan
12. Which of the following statements most accurately reflects the author’s opinion about wind energy?
○Wind energy production should be limited to large wind farms.
○The advantages of wind energy outweigh the disadvantages.
○The technology to make wind energy safe and efficient will not be ready until the middle of the twenty-first century.
○Wind energy will eventually supply many countries with most of their electricity.
Paragraph 1: Since 1980, the use of wind to produce electricity has been growing rapidly. █In 1994 there were nearly 20,000 wind turbines worldwide, most grouped in clusters called wind farms that collectively produced 3,000 megawatts of electricity. █Most were in Denmark (which got 3 percent of its electricity from wind turbines) and California (where 17,000 machines produced 1 percent of the state’s electricity, enough to meet the residential needs of a city as large as San Francisco). █In principle, all the power needs of the United States could be provided by exploiting the wind potential of just three states—North Dakota, South Dakota, and Texas. █
13. Look at the four squares [■] that indicate where the following sentence could be added to the passage.
Some companies in the power industry are aware of this wider possibility and are planning sizable wind-farm projects in states other than California.
Where would the sentence best fit?
14. Directions: An introductory sentence for a brief summary of the passage is provided below. Complete the summary by selecting the THREE answer choices that express the most important ideas in the passage. Some sentences do not belong in the summary because they express ideas that are not presented in the passage or are minor ideas in the passage. This question is worth 2 points.
In the future, wind power is likely to become a major source of the world’s energy supply.
Answer Choices
○Wind farms have already produced sufficient amounts of electricity to suggest that wind power could become an important source of electric power.
○Wind power has several advantages, such as low pollution and projected cost declines, compared to other energy sources.
○Responding to environmentalists concerned about birds killed by wind turbines, analysts point to other human developments that are even more dangerous to birds.
○The wind energy produced by just a small number of states could supply all of the power needs of the United States.
○Although wind power is not economical in areas with steady winds, alternative wind sources can be used to simulate wind power.
○Smaller countries, which use less electricity than large countries, are especially suited to use wind power to meet all their energy needs.
本文就是小编带来的托福阅读风力发电原文解析及答案。
托福阅读真题参考答案:
1. ○ 4
2. ○ 3
3. ○ 2
4. ○ 2
5. ○4
6. ○ 2
7. ○ 3
8. ○ 3
9. ○4
10. ○4
11. ○1
12. ○2
13. ○4
14. Wind farms have already…
Wind power has several advantages…
Responding to environmentalists...
托福阅读真题参考译文:
风力发电
风力发电的运用从1980年起一直迅猛增长。1994年,世界各地有近2万台风力涡轮机,大量风力涡轮机集中在一起组成风力发电厂,可共同发电3000兆瓦。风力发电厂主要集中在丹麦和美国的加利福尼亚州,丹麦全国电力的3%来源于风力发电,美国加州风力发电厂17000台涡轮机的发电量占全州电量的1%,足以满足旧金山这种大城市的居住用电需求。全美的电力需求基本上都可以通过挖掘北达科他州、南达科他州和得克萨斯州的风力发电潜力来满足。
大型风力发电厂可在6个月至一年内建成,后续可根据需要随时扩建。发电厂里的设备在实现大量电能高产的同时,不仅做到了温室气体二氧化碳和其他空气污染物的零排放,并且无需用水对设备进行降温;同时,风力发电基本不会造成水资源污染。风力涡轮机的所在地还可用于放牛等其他用途,农民们和农场主可以通过土地出租供风力发电来增加额外收入。
风力发电和核电站发电相比具有明显的成本优势,在很多地方与燃煤发电也不相上下。随着新技术的进步和大规模生产,预期的成本下降会使风力发电成为世界上成本最低的发电方式。未来,偏远地区的大型风力发电厂发电量高于用电高峰需求量时,多出的电量可能会为从水中制造氢气提供支持。氢气可以存储起来,在需要额外或后备电源时用来发电。
在风源稳定的地区,风力发电是最经济。在风源不足的地方,需要稳定的备用电力来源,如电力公司司、能量储存、太阳能电池、传统水力发电机和抽水蓄能,或者燃烧天然气的高效涡轮机。虽然风力发电会带来视觉污染和噪音,不过这些缺陷都可以通过设计的改善以及地点安排来弥补。
某些区域的大型风力发电厂很可能会影响候鸟的飞行方式,他们杀害了大型猛禽(尤其是老鹰、猎鹰和鹰),这些猛禽喜欢沿那些风力涡轮机所处的理想嵴线捕食。针对风力涡轮机对猛禽造成伤害的这一事实,主张保护野生动物的环保主义者和主张发展再生能源的环保主义者各持己见。研究人员还在对这个问题的严重程度进行评估,他们希望能想办法来消除或着大幅减少这个问题。有的分析家评论认为,由风力涡轮机导致的鸟类的死亡数目和由其他人为原因造成的死亡数目以及整个鸟类可能因全球变暖中而死亡数目相比是少之又少。据记载,美国风力发电厂伤害的猛禽和其他禽鸟的死亡数量每年不超过300只。相比之下,在美国估计每年有9700万禽鸟由于碰撞到建筑物的厚玻璃板而死亡,5700万禽鸟死在高速公路上,至少有380万禽鸟死于污染和中毒,每年数以百万计的禽鸟在燃煤电厂和核电厂的输电和配电线缆上触电致死。
促使全球范围内风力发电应用扩张的技术已经到位。在合适的地点,风力发电几乎用之不尽取之不竭,即使排除这些环境敏感地区,全球潜在的风力发电量远高于目前的世界耗电总量。理论上来说,阿根廷、加拿大、智利、中国、俄罗斯和英国可以利用风力来满足他们所有的能源需求。风力发电专家估计,在二十一世纪中叶,全球超过10%的电力,及美国10-25%的电力需求都可通过风力发电来满足。
本文是小编整理的托福阅读风力发电原文解析及答案,从相关分析中可以总结更多对自己有帮助的方法。