核能電廠的工作原理

How do nuclear power plants work?

2023-09-08 消毒水基金會 4269 2 1 收藏糾錯&舉報(bào)

譯文簡介

一個中子打炮炸鈾235的故事

正文翻譯

On a December afternoon in Chicago during the middle of World War II,scientists cracked open the nucleus at the center of the uranium atom and turned nuclear mass into energy over and over again.

第二次世界大戰(zhàn)期間，時值芝加哥12月份的一個下午，科學(xué)家們敲開了鈾原子中心的原子核，一遍又遍地重復(fù)將質(zhì)量轉(zhuǎn)化成能量這一過程。

They did this by creating for the first time a chain reaction inside a new engineering marvel:the nuclear reactor.

他們創(chuàng)造了在世界上尚屬首次的連鎖反應(yīng)工程新奇跡：核反應(yīng)爐

Since then, the ability to mine great amounts of energy from uranium nuclei has led some to bill nuclear power as a plentiful Utopian source of electricity.

自此，人類從鈾原子核中提取巨量能源，使一些人將核能視為一種非常充足的烏托邦式電力來源。

A modern nuclear reactor generates enough electricity from one kilogram of fuel to power an average American household for nearly 34 years.

一個現(xiàn)代的核反應(yīng)堆裝填一公斤的核燃料所發(fā)的電力足夠一個普通美國家庭使用大約34年。

But rather than dominate the global electricity market,nuclear power has declined from an all-time high of 18% in 1996 to 11% today.

但核能并沒有占據(jù)全球電力市場的主導(dǎo)地位反而從1996年的18%的歷史高點(diǎn)下降到現(xiàn)在的11%

And it's expected to drop further in the coming decades.

而且預(yù)計(jì)在未來的幾十年里，還將進(jìn)一步下滑

What happened to the great promise of this technology?

核能發(fā)電這項(xiàng)技術(shù)的美好前景到底遭遇了什么？
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It turns out nuclear power faces many hurdles,including high construction costs and public opposition.

事實(shí)證明，核能發(fā)電面臨著許多障礙，包括高昂的建設(shè)成本和公眾的反對聲浪。

And behind these problems lie a series of unique engineering challenges.

這些障礙背后還有一系列罕見的工程挑戰(zhàn)。

Nuclear power relies on the fission of uranium nuclei and a controlled chain reaction that reproduces this splitting in many more nuclei.

核子能量的釋放依賴于鈾原子核的裂變和受控的連鎖反應(yīng)，連鎖反應(yīng)在旁邊的眾多鈾原子核中復(fù)制了這種裂變

The atomic nucleus is densely packed with protons and neutrons bound by a powerful nuclear force.

密密麻麻包圍著原子核的質(zhì)子和中子，受到強(qiáng)大的原子核力束縛

Most uranium atoms have a total of 238 protons and neutrons,but roughly one in every 140 lacks three neutrons,and this lighter isotope is less tightly bound.

多數(shù)鈾原子質(zhì)子和中子的個數(shù)加起是283個，但是大約每140個鈾原子就有一個鈾原子缺少3個中子，這種輕的鈾同位素結(jié)合地還不太穩(wěn)定。

Compared to its more abundant cousin,a strike by a neutron easily splits the U-235 nuclei into lighter, radioactive elements called fission products,in addition to two to three neutrons,gamma rays,and a few neutrinos.

與它穩(wěn)定的親戚相比，一個中子的撞擊輕易地將鈾-235分裂成更輕的放射性元素，即裂變產(chǎn)物，裂變產(chǎn)物還包含二到三個中子、伽馬射線和一些中微子。

評論翻譯

During fission, some nuclear mass transforms into energy.A fraction of the newfound energy powers the fast-moving neutrons,and if some of them strike uranium nuclei,fission results in a second larger generation of neutrons.If this second generation of neutrons strike more uranium nuclei,more fission results in an even larger third generation, and so on.But inside a nuclear reactor,this spiraling chain reaction is tamed using control rods made of elements that capture excess neutrons and keep their number in check.

裂變過程中，一些核質(zhì)量轉(zhuǎn)化為能量。一部分能量則為中子提供動力，若該動力中子再次撞擊到鈾原子核，再次的裂變反應(yīng)就會產(chǎn)生更多的中子，如果第三次產(chǎn)生的中子再再次撞到鈾原子核，就會產(chǎn)生更更多的中子，如此這般連鎖反應(yīng)。但在核反應(yīng)堆內(nèi)部，連鎖反應(yīng)受控制桿的控制，而控制桿由可以吸收中子的元素制成，用以捕獲多余的中子，并控制其數(shù)量。

With a controlled chain reaction,a reactor draws power steadily and stably for years.The neutron-led chain reaction is a potent process driving nuclear power,but there's a catch that can result in unique demands on the production of its fuel.

通過控制連鎖反應(yīng)，反應(yīng)堆可以連續(xù)多年穩(wěn)定的發(fā)電。中子引發(fā)的連鎖反應(yīng)是核子能發(fā)電的關(guān)鍵，但仍存一項(xiàng)核燃料供給隱患。

核能電廠工作

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