Substantial research efforts have shown nuclear fusion energy to be a promising technology for producing safe, pollution-free, and economical electric energy later in the 21st century and beyond.
大量的研究已经表明,因核聚变能源生产安全,无污染并且节约(经济)电力能源,其将是21世纪后期及以后一项大有可为的技术。
The trend of globe energy transformation is briefly analyzed, and it is indicated that main energy used by mankind during 21st century are two kinds: nuclear fusion energy and natural gas hydrate.
简要分析了全球能源变换的趋势,指出21世纪人类所用的能源主要有核聚变能源和天然气水合物两大类。
Two desktop-printer engineers quit their jobs to search for the ultimate source of endless energy: nuclear fusion. Could this highly improbable enterprise actually succeed?
两位桌面印刷工程师放下手中的活去研究核聚变这种取之不尽的最终能源,这项看来异想天开的事儿能成功吗?
Time, then, to rekindle a little glamour, by using lasers to bring about nuclear fusion, the great prize of energy research.
现在看来是重新让人们对激光感兴趣的时候了,办法就是利用激光,激发核聚变,这就是能量研究方面最大的回报。
Technological progress will be essential but, barring a breakthrough in nuclear fusion, it will not set us on a path to an energy system purged of fossil fuels.
技术进步将必不可少,但除非在核聚变技术上获得突破,否则我们无法借此建立一个没有化石燃料的能源体系。
Nuclear fusion is what powers all Main Sequence stars in the universe, and efforts to exploit this energy have been ongoing for decades.
核聚变是宇宙中所有主序星的动力,并且几十年来开发利用这种能源的努力一直在进行中。
The white whale of energy, scientists have been hyping the potential of nuclear fusion since, oh, the first hydrogen bomb was dropped over the Marshall Islands in 1952.
能源的大白鲸,自从,噢,第一颗氢弹在1952年被投掷在马绍尔群岛以来,科学家们一直都在大肆宣传核聚变的潜力。
Nuclear fusion is the source of energy in stars such as the sun
核聚变是恒星提供能量的源泉,就像太阳一样
Nuclear fusion joins atoms to produce energy.
核子融合将原子结合起来产生能量。
I would like nuclear fusion to become a practical power source. It would provide an inexhaustible supply of energy without pollution or global warming.
我期望聚变可以成为实用的能源。聚变将提供永不枯竭的能源,没有传染,也不会造成全球变暖。
This heating is extremely efficient and can convert about 50% of the mass energy of an object into radiation, as opposed to nuclear fusion which can only convert a few percent of the mass to energy.
这种加热十分有效可以将物体质能的大致50%转化为辐射,如相对的核子熔化只能转化质能很少的百分比。
Nuclear fusion is the energy source that keeps the sun alive.
核聚变是使太阳保持活力的能源。
In this paper the progress and prospect of utilization of nuclear energy (decay, fission and fusion energy) are reviewed.
本文评述了核能(衰变能、裂变能、聚变能)利用的现状和前景。
The energy of the Sun arises not from any burning process but from nuclear fusion, the transformation of hydrogen into helium, in part by a complicated process involving carbon and nitrogen.
大阳的能量不是来自燃烧过程,而是来自由氢到氦的核聚变,是部分由一个涉及碳和氮的复杂过程引起的。
The stability of compressor suction-exhaust pressure has a great significance to economize energy, increase efficiency of refrigerator and ensure the nuclear fusion experiment operate normally.
压缩机吸排气压力的稳定控制对于节约能量、提高制冷机效率和保证核聚变装置实验正常运行具有重要意义。
For the long term the plan lists nuclear fusion, solar electric energy and the study of breeder reactors as priorities.
从长远来看,该计划把核聚变、太阳能发电和增殖反应堆列在优先地位。
This is a step short of the lab's stated goal of "ignition", where nuclear fusion generates as much energy as the lasers supply.
这距离实验室“点火”的既定目标还差一步之遥,“点火”也就是当达到核聚变产生与激光器的能量供应一样多的能量的时候。
The technology of vibratory stress relief(VSR) used in energy engineering, such as HT-7U nuclear fusion superconducting Tokamak massive base plate and vacuum vessel was introduced.
介绍了振动时效技术在HT-7U超导托卡马克核聚变大底板、真空装置等能源工程中的应用。
Nuclear fusion of deuterium and tritium at high temperatures releases enormous amounts of energy.
高温下氘和氚的核聚变释放巨大的能量。
Some matter is lost during nuclear fusion. The lost matter is emitted into space as radiant energy.
这是因为在核聚变过程中有些物质损失了,这些损失的物质就以辐射能的形式发射到宇宙空间。
The ultimate goal of the National Ignition Campaign is the achievement of "controlled, sustained nuclear fusion and energy gain for the first time ever in a laboratory setting."
全国点火运动的最终目标是“控制的成果,持续的核聚变和能量,首次在实验室环境中不断增长。”
Stimulation energy with Pycnodeuterium easily caused intense solid-state nuclear fusion, whereas with Pycnohydrogen no reaction occurred.
给聚合氘激发能量就会很容易地引发固态核聚变,而聚合氕没有发生反应。
Stimulation energy with Pycnodeuterium easily caused intense solid-state nuclear fusion, whereas with Pycnohydrogen no reaction occurred.
给聚合氘激发能量就会很容易地引发固态核聚变,而聚合氕没有发生反应。
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