科學(xué)家們最近發(fā)表的關(guān)于新型核聚變技術(shù)的研究成果很鼓舞人心,但要獲得“清潔能源的圣杯”我們還需要繼續(xù)努力。
The technology developed by Heinrich Hora and his colleagues at the University of NSW uses powerful lasers to fuse together hydrogen and boron atoms, releasing high-energy particles that can be used to generate electricity.
這項技術(shù)是由新南威爾士大學(xué)的海因里希·霍拉和他的同事共同開發(fā)的,他們使用功率強(qiáng)大的激光把氫和硼原子融合在一起,以便釋放出可以用來發(fā)電的高能粒子。
As with other kinds of nuclear fusion technology, however, the difficulty is in building a machine that can reliably initiate the reaction and harness the energy it produces.
然而,與其他類型的核聚變技術(shù)一樣,該技術(shù)的難點在于如何制造一臺能夠有效啟動反應(yīng)并利用其產(chǎn)生的能量的機(jī)器。
What is fusion?
什么是聚變?
Fusion is the process that powers the Sun and the stars. It occurs when the nuclei of two atoms are forced so close to one another that they combine into one, releasing energy in the process.
聚變就是為太陽和恒星提供能量的過程。當(dāng)兩個原子的原子核被迫緊靠在一起的時候,它們就會結(jié)合成一個原子并在這個過程中釋放能量。
If the reaction can be tamed in the laboratory, it has the potential to deliver near-limitless baseload electricity with virtually zero carbon emissions.
如果能在實驗室控制這種反應(yīng),它就有可能在幾乎零碳排放的情況下,提供近乎無限的基載電力。
The experiments with hydrogen and boron have certainly produced fascinating physical results, but projections by Hora and colleagues of a five-year path to realising fusion power seem premature. Others have attempted laser-triggered fusion. The National Ignition Facility in the US, for example, has attempted to achieve hydrogen-deuterium fusion ignition using 192 laser beams focused on a small target.
氫和硼的實驗確實產(chǎn)生了極好的結(jié)果,但是霍拉和他的同事預(yù)期在5年里實現(xiàn)控制核聚變能量的想法似乎還為時過早。其他人也嘗試過用激光觸發(fā)核聚變。例如,美國國家點火裝置實驗室曾嘗試用192束激光照射一個小靶核來實現(xiàn)氫-氘聚變點火。
These experiments reached one-third of the conditions needed for ignition for a single experiment. The challenges include precise placement of the target, non-uniformity of the laser beam, and instabilities that occur as the target implodes.
這些實驗有三分之一達(dá)到了單次實驗所需的點火條件。其中面臨的挑戰(zhàn)有目標(biāo)的精確定位、激光束的不均勻性以及目標(biāo)內(nèi)爆時的不穩(wěn)定性。
These experiments were conducted at most twice per day. By contrast, estimates suggest that a power plant would require the equivalent of 10 experiments per second.
這些實驗每天最多能進(jìn)行兩次。相比之下,據(jù)估計,一個發(fā)電廠可能需要每秒進(jìn)行相當(dāng)于這樣10次的實驗。
That said, there is always room for smart innovation and new concepts, and it is wonderful to see all kinds of investment in fusion science.
也就是說,總有巧妙創(chuàng)新和提出新概念的空間,而且我們很高興能看到在核聚變科學(xué)上進(jìn)行的各種投資。
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