atomic reactor

简明释义

板应堆

英英释义

例句

1.During the tour, we learned how an atomic reactor 原子反应堆 generates electricity.

在参观中，我们了解到一个原子反应堆是如何产生电力的。

2.An atomic reactor 原子反应堆 can produce a large amount of energy from a small amount of fuel.

一个原子反应堆可以从少量燃料中产生大量能量。

3.The atomic reactor 原子反应堆 at the nuclear power plant has been operational for over 30 years.

核电站的原子反应堆已经运行超过30年。

4.Scientists are studying the effects of radiation emitted by an atomic reactor 原子反应堆 on local wildlife.

科学家们正在研究一个原子反应堆发出的辐射对当地野生动物的影响。

5.The government has invested heavily in research to improve the safety of the atomic reactor 原子反应堆 technology.

政府在研究中投入了大量资金，以提高原子反应堆技术的安全性。

作文

The concept of the atomic reactor is one that has significantly shaped modern energy production and scientific research. An atomic reactor (原子反应堆) is a device used to initiate and control a sustained nuclear chain reaction. This technology is pivotal in generating electricity through nuclear fission, where atomic nuclei are split to release a vast amount of energy. The first successful atomic reactor was built in 1942 by a team led by Enrico Fermi at the University of Chicago. This groundbreaking achievement marked the beginning of the nuclear age and opened up new possibilities for energy generation.One of the primary advantages of an atomic reactor is its ability to produce large amounts of energy from relatively small amounts of fuel. Unlike fossil fuels, which can emit greenhouse gases and contribute to climate change, nuclear power is considered a cleaner alternative. The fuel used in an atomic reactor, typically uranium or plutonium, undergoes fission to release energy without the same level of carbon emissions. This aspect makes nuclear energy an attractive option for countries looking to reduce their carbon footprint and transition to more sustainable energy sources.However, the use of atomic reactors is not without its challenges and controversies. One major concern is the potential for catastrophic accidents, as seen in historical incidents such as the Chernobyl disaster in 1986 and the Fukushima disaster in 2011. These events highlighted the risks associated with nuclear energy, leading to increased scrutiny and regulatory measures in the industry. Safety protocols and advancements in reactor design have since been implemented to mitigate these risks, but public perception remains a significant hurdle for the expansion of nuclear power.Another challenge related to atomic reactors is the issue of radioactive waste disposal. The byproducts of nuclear fission remain hazardous for thousands of years, requiring secure and long-term storage solutions. Countries utilizing nuclear power must develop comprehensive waste management strategies to address this critical aspect of nuclear energy production. Despite these challenges, many experts argue that the benefits of atomic reactors outweigh the risks, especially in the context of combating climate change and ensuring energy security.In recent years, there has been a resurgence of interest in nuclear energy, particularly as technological advancements lead to the development of safer and more efficient reactor designs. Innovations such as small modular reactors (SMRs) and next-generation reactors promise to enhance safety and reduce waste, potentially revitalizing the role of atomic reactors in global energy systems. As countries strive to meet their energy needs while addressing environmental concerns, the future of atomic reactors may hold the key to a sustainable energy landscape.In conclusion, the atomic reactor (原子反应堆) represents a complex interplay of innovation, risk, and opportunity in the realm of energy production. While challenges such as safety and waste management continue to pose significant hurdles, the potential for clean energy generation makes nuclear power a compelling option in the fight against climate change. As we move forward, it is essential to balance the benefits and risks associated with atomic reactors to harness their full potential for a sustainable future.

原子反应堆的概念在现代能源生产和科学研究中发挥了重要作用。atomic reactor（原子反应堆）是一种用于启动和控制持续核链反应的设备。这项技术在通过核裂变产生电力方面至关重要，核裂变是指原子核被分裂以释放大量能量。1942年，由恩里科·费米领导的团队在芝加哥大学建成了第一个成功的atomic reactor。这一突破性成就标志着核时代的开始，并为能源生成开辟了新的可能性。atomic reactor的一个主要优点是它能够从相对少量的燃料中产生大量能量。与可能排放温室气体并导致气候变化的化石燃料不同，核电被认为是更清洁的替代方案。用于atomic reactor的燃料通常是铀或钚，通过裂变释放能量，而不会产生同样程度的碳排放。这一特性使得核能成为各国希望减少碳足迹并转向更可持续能源来源的有吸引力的选择。然而，atomic reactors的使用并非没有挑战和争议。一个主要问题是潜在的灾难性事故风险，如1986年的切尔诺贝利事故和2011年的福岛事故。这些事件突显了核能相关的风险，导致行业受到更严格的审查和监管措施。安全协议和反应堆设计的进步已被实施以减轻这些风险，但公众认知仍然是核电扩张的重要障碍。与atomic reactors相关的另一个挑战是放射性废物处理问题。核裂变的副产品在数千年内仍然是危险的，需要安全和长期的储存解决方案。利用核能的国家必须制定全面的废物管理策略，以解决核能生产这一关键方面。尽管面临这些挑战，许多专家认为，atomic reactors的好处超过了风险，尤其是在应对气候变化和确保能源安全的背景下。近年来，随着技术进步促进更安全、更高效的反应堆设计的发展，人们对核能的兴趣重新兴起。小型模块化反应堆（SMR）和下一代反应堆等创新有望提高安全性并减少废物，从而可能重振atomic reactors在全球能源系统中的角色。随着各国努力满足其能源需求，同时解决环境问题，atomic reactors的未来可能是可持续能源格局的关键。总之，atomic reactor（原子反应堆）代表了能源生产领域创新、风险和机遇之间的复杂互动。尽管安全和废物管理等挑战仍然构成重大障碍，但清洁能源生成的潜力使得核能在应对气候变化的斗争中成为一个引人注目的选择。展望未来，平衡与atomic reactors相关的益处和风险对于充分利用其在可持续未来中的潜力至关重要。