出国留学网

目录

托福阅读资料(一):Electricity from Wind

字典 |

2011-11-03 15:24

|

推荐访问

【 liuxue86.com - 托福阅读 】

以下小编带来了新托福阅读中的模拟试题,希望大家每一题都认真仔细的完成,在备考中好好准备,每天做新托福阅读熟悉考试的感觉,到考场上随机应变。相信大家在每天不断的练习中,一定会有不小的进步,那么现在就开始吧!

  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.

  以上就是小编带来的新托福阅读的模拟,大家都做完了吗,每天练习3.4个阅读,最好把生词给记下来,每天把之前的生词都熟悉一下,这种不断地加深印象,到了考试的时候不管是在阅读中或者是写作中都会起到很好的效果。

  想了解更多托福阅读网的资讯,请访问: 托福阅读

本文来源:https://toefl.liuxue86.com/t/265422.html
延伸阅读
托福阅读文章都比较长,所以在安排时间的时候需要有更多的考虑,那么接下来就和出国留学网来看看托福阅读时间安排及速度提高技巧。时间安排首先介绍下托福阅读时间安排,阅读考试总时长60分钟
2020-07-06
对于托福阅读,备考的考生对此有哪些了解呢?需要分内容和板块进行准备。接下来就和出国留学网一起来看看2020年托福阅读备考指导。备考方法单词:想要做好托福阅读,背托福单词是最基础的。
2020-06-16
因为考试时间有限,托福阅读速度提升是考生要考虑的问题之一,如何提升托福阅读速度呢?需要考托福的同学和出国留学网小编一起来看看托福阅读考试速度怎么训练?考试速度1.多做真题,模拟训练
2020-06-06
托福阅读题型以及算分详解,希望这篇文章对于大家在进行托福阅读备考的时候有帮助,下面就好出国留学网一起来看看托福阅读考试有哪些常考题型?2020年托福阅读考试需要完成3篇文章,每篇文
2020-05-27
对于托福阅读,想获得高分,那么了解一些做题技巧是免不了的,接下来就和出国留学网的小编来了解一下2020年托福阅读考试满分答题技巧分享。做题的误区考生做旧托福考试(TOEFL)阅读或
2020-05-27
阅读不仅在英语考试中是重点,在中文考试中同样占比很重。其实阅读在我们生活中无处不在。但是托福阅读好像要难上些许,我们出国留学网给大家分析了一些托福阅读考点,来跟我们看看吧。一、例证
2019-06-10
托福阅读如此重要,很多人不知道怎么分配时间,那么托福阅读时间该怎么分配呢?想必是不少出国人士比较关心的问题,和出国留学网一起来看看怎样分配托福阅读时间?1.单篇阅读文章定格20分钟
2019-05-30
在托福阅读时,审题在考试中是非常重要的,那么接下来就和出国留学网一起来看看托福阅读考试审题技巧。对于托福阅读中的细节题,推断题和修辞目的题,审题是非常关键的。如果考生审题不清晰,或
2019-06-20
今年的托福阅读的热门出题点有哪些?这是很多同学需要了解的事情,那么接下来就和出国留学网一起来看看2020年托福阅读考试热门考点一览表。热门考点1.主题段和主题句关键词托福阅读文章中
2020-04-26
托福阅读考试中,对于一些基本的语法知识的,大家要了解清楚,来帮助我们理解文章内容,和出国留学网小编一起来看看托福阅读常考语法一览表。01现在分词做后置定语例:降落到湖面的雨水首先确
2020-02-21