thermonuclear energy

简明释义

热核能

英英释义

例句

1.Advancements in thermonuclear energy could lead to a new era of clean energy.

在热核能方面的进展可能会开启一个清洁能源的新纪元。

2.The sun produces light and heat through the process of thermonuclear energy fusion.

太阳通过热核能聚变过程产生光和热。

3.Countries are collaborating on international projects to explore thermonuclear energy solutions.

各国正在合作开展国际项目，以探索热核能解决方案。

4.The development of fusion reactors aims to harness thermonuclear energy for sustainable power generation.

核聚变反应堆的开发旨在利用热核能进行可持续发电。

5.Scientists are researching ways to achieve controlled thermonuclear energy production.

科学家正在研究实现受控热核能生产的方法。

作文

Thermonuclear energy, or 热核能, is a form of energy that is produced by nuclear fusion reactions. These reactions occur when two light atomic nuclei combine to form a heavier nucleus, releasing a significant amount of energy in the process. This type of energy is the same process that powers the sun and other stars in the universe. Understanding 热核能 is essential for several reasons, particularly in the fields of energy production and environmental sustainability.One of the most significant advantages of 热核能 is its potential to provide a nearly limitless source of energy. Unlike fossil fuels, which are finite and contribute to environmental degradation, thermonuclear energy relies on isotopes like deuterium and tritium, which can be extracted from water and lithium, respectively. This means that, theoretically, we could harness the power of the oceans to generate energy without depleting our natural resources.Moreover, the environmental impact of 热核能 is considerably lower than that of traditional energy sources. Nuclear fusion produces minimal greenhouse gas emissions, making it an attractive option in the fight against climate change. While fission, the process used in current nuclear power plants, generates long-lived radioactive waste, the byproducts of fusion are generally short-lived and pose far less risk to human health and the environment.However, despite its promise, harnessing 热核能 for practical use has proven to be a significant scientific and engineering challenge. The conditions required for nuclear fusion to occur—extremely high temperatures and pressures—are difficult to achieve and maintain. Current research efforts, such as those at the ITER project in France, aim to create a controlled environment where fusion can take place efficiently and safely.The potential applications of 热核能 extend beyond just electricity generation. It could also revolutionize space travel, providing a powerful propulsion method that could shorten the time it takes to reach distant planets. Additionally, advancements in fusion technology could lead to breakthroughs in medical applications, such as cancer treatment, where controlled fusion reactions could be used to target and destroy malignant cells.In conclusion, 热核能 represents a promising frontier in the quest for sustainable and clean energy. Although there are significant hurdles to overcome in terms of technology and safety, the potential benefits of harnessing this energy source are immense. As research continues and technology advances, it is crucial for governments, scientists, and the public to support initiatives that explore the possibilities of 热核能. By investing in this field, we may unlock a future where energy is abundant, clean, and accessible to all, paving the way for a more sustainable planet.

热核能，或称为thermonuclear energy，是一种通过核聚变反应产生的能量形式。当两个轻原子核结合形成一个更重的原子核时，就会发生这些反应，并在此过程中释放出大量能量。这种类型的能量与太阳和宇宙中其他恒星的运行机制相同。理解thermonuclear energy对于多个领域，特别是能源生产和环境可持续性至关重要。thermonuclear energy最显著的优点之一是它有潜力提供几乎无限的能源来源。与有限且对环境造成破坏的化石燃料不同，热核能依赖于氘和氚等同位素，这些同位素可以从水和锂中提取。这意味着，从理论上讲，我们可以利用海洋的力量来产生能源，而不消耗我们的自然资源。此外，thermonuclear energy对环境的影响远低于传统能源来源。核聚变产生的温室气体排放极少，使其成为应对气候变化的一个有吸引力的选择。虽然裂变，即当前核电站使用的过程，会产生长期存在的放射性废物，但聚变的副产品通常是短命的，对人类健康和环境的风险要小得多。然而，尽管有前景，利用thermonuclear energy进行实际应用仍然被证明是一个重大的科学和工程挑战。核聚变发生所需的条件——极高的温度和压力——难以实现和维持。目前的研究工作，例如在法国的国际热核聚变实验反应堆（ITER）项目，旨在创造一个可以有效且安全地进行聚变的受控环境。thermonuclear energy的潜在应用超出了电力生成。它还可以彻底改变太空旅行，提供一种强大的推进方法，可以缩短到达遥远行星所需的时间。此外，在融合技术的进步下，可能会在医学应用方面取得突破，例如癌症治疗，其中受控的聚变反应可以用来靶向并摧毁恶性细胞。总之，thermonuclear energy代表了可持续和清洁能源探索中的一个有前途的前沿领域。尽管在技术和安全性方面面临重大障碍，但利用这一能源来源的潜在好处是巨大的。随着研究的继续和技术的进步，政府、科学家和公众支持探索thermonuclear energy可能性的倡议至关重要。通过投资这一领域，我们可能会开启一个能源丰富、清洁且可供所有人使用的未来，为更可持续的星球铺平道路。