full scale fusion power plant

简明释义

实际规模的聚变发电站

英英释义

例句

1.The government has announced plans to invest in a full scale fusion power plant 全规模核聚变电厂 to meet future energy demands.

政府已宣布计划投资建设一个全规模核聚变电厂 full scale fusion power plant以满足未来的能源需求。

2.The technology for a full scale fusion power plant 全规模核聚变电厂 is still in development, but progress is being made.

全规模核聚变电厂 full scale fusion power plant的技术仍在开发中，但正在取得进展。

3.Researchers believe that a full scale fusion power plant 全规模核聚变电厂 could provide nearly limitless clean energy.

研究人员认为，全规模核聚变电厂 full scale fusion power plant可以提供几乎无限的清洁能源。

4.Investors are excited about the prospect of a full scale fusion power plant 全规模核聚变电厂 becoming operational within the next decade.

投资者对在未来十年内投入运营的全规模核聚变电厂 full scale fusion power plant感到兴奋。

5.The construction of the full scale fusion power plant 全规模核聚变电厂 is expected to create thousands of jobs in the region.

建设全规模核聚变电厂 full scale fusion power plant预计将在该地区创造数千个就业机会。

作文

The quest for sustainable and clean energy sources has led scientists and engineers to explore various innovative technologies. One of the most promising advancements in this field is the development of a full scale fusion power plant. A full scale fusion power plant refers to a facility that can harness the power of nuclear fusion to generate electricity on a large scale. Unlike traditional nuclear fission, which splits heavy atomic nuclei to release energy, fusion combines light nuclei, such as hydrogen isotopes, to produce energy. This process not only offers a nearly limitless supply of fuel but also generates minimal radioactive waste compared to fission reactors.The idea of a full scale fusion power plant has captivated researchers for decades, primarily due to its potential to provide a safe and environmentally friendly alternative to fossil fuels. Fusion reactions occur naturally in the sun, where immense pressure and temperature allow hydrogen atoms to fuse, releasing vast amounts of energy. Replicating these conditions on Earth is a significant challenge, but recent advancements in technology have brought us closer to realizing this dream.One of the key benefits of a full scale fusion power plant is its safety profile. In contrast to fission reactors, which carry the risk of catastrophic meltdowns, fusion does not pose the same level of danger. If there is a malfunction or an unexpected event, the fusion reaction simply stops, preventing any harmful release of energy. This inherent safety makes fusion an attractive option for future energy production.Moreover, a full scale fusion power plant would significantly reduce greenhouse gas emissions. As the world grapples with climate change and the urgent need to transition away from carbon-intensive energy sources, fusion offers a clean solution. The primary byproduct of fusion is helium, an inert gas that poses no environmental threat. Thus, the implementation of fusion technology could play a crucial role in achieving global climate goals.Despite the potential advantages, several technical hurdles must be overcome before a full scale fusion power plant can become a reality. Current experimental reactors, such as ITER (International Thermonuclear Experimental Reactor) in France, aim to prove the feasibility of sustained fusion reactions. However, scaling up these experiments to create a commercially viable power plant will require significant investment and international collaboration.In conclusion, the vision of a full scale fusion power plant represents a transformative leap in our approach to energy generation. With its promise of abundant energy, enhanced safety, and minimal environmental impact, fusion power could reshape the future of how we produce and consume energy. As research and development continue, the hope remains that one day we will witness the successful operation of a full scale fusion power plant, paving the way for a sustainable energy future for generations to come.

对可持续和清洁能源来源的追求使科学家和工程师探索各种创新技术。在这个领域中，最有前景的进展之一是开发全规模聚变发电厂。全规模聚变发电厂指的是一个能够利用核聚变产生大规模电力的设施。与传统的核裂变不同，核裂变是通过分裂重原子核释放能量，聚变则是将轻原子核（如氢同位素）结合在一起以产生能量。此过程不仅提供了几乎无限的燃料供应，而且与裂变反应堆相比，产生的放射性废物也极少。全规模聚变发电厂的构想吸引了研究人员数十年，主要是由于其提供安全和环保替代化石燃料的潜力。聚变反应自然发生在太阳内部，在那里巨大的压力和温度允许氢原子融合，释放出大量能量。在地球上复制这些条件是一项重大挑战，但最近的技术进步使我们离实现这一梦想更近了一步。全规模聚变发电厂的一个关键好处是其安全性。与可能导致灾难性熔毁的裂变反应堆相比，聚变并不具有相同程度的危险。如果发生故障或意外事件，聚变反应会自动停止，从而防止任何有害能量的释放。这种固有的安全性使得聚变成为未来能源生产的一个有吸引力的选择。此外，全规模聚变发电厂将显著减少温室气体排放。随着世界面临气候变化及急需转向低碳能源的挑战，聚变提供了一种清洁解决方案。聚变的主要副产品是氦，这是一种惰性气体，对环境没有威胁。因此，实施聚变技术可能在实现全球气候目标方面发挥至关重要的作用。尽管潜在的优势，必须克服几个技术障碍，才能使全规模聚变发电厂成为现实。目前的实验反应堆，例如法国的国际热核聚变实验反应堆（ITER），旨在证明维持聚变反应的可行性。然而，将这些实验扩展到创建商业上可行的发电厂将需要大量投资和国际合作。总之，全规模聚变发电厂的愿景代表了我们在能源生成方面的一次变革性飞跃。凭借其丰富的能量、增强的安全性和最小的环境影响，聚变能源可能重塑我们生产和消费能源的未来。随着研究和开发的继续，希望有一天我们能见证全规模聚变发电厂的成功运行，为未来几代人铺平可持续能源的道路。