thermal breeder

简明释义

热增殖堆

英英释义

例句

1.In a thermal breeder 热繁殖反应堆, the process generates more fissile material than it consumes.

在热繁殖反应堆中，过程产生的裂变材料超过其消耗的量。

2.Engineers are exploring the potential of a thermal breeder 热繁殖反应堆 to reduce nuclear waste.

工程师们正在探索热繁殖反应堆减少核废料的潜力。

3.Countries are investing in thermal breeders 热繁殖反应堆 as a sustainable energy source.

各国正在投资于热繁殖反应堆作为可持续能源来源。

4.The design of a thermal breeder 热繁殖反应堆 allows for the efficient use of nuclear fuel.

一种热繁殖反应堆的设计能够有效利用核燃料。

5.The thermal breeder 热繁殖反应堆 operates at high temperatures to improve efficiency.

为了提高效率，热繁殖反应堆在高温下运行。

作文

In the quest for sustainable energy solutions, nuclear power has emerged as a significant player. Among the various types of nuclear reactors, the concept of a thermal breeder is particularly noteworthy. A thermal breeder is a type of nuclear reactor that generates more fissile material than it consumes. This process is achieved by using a fertile material, such as uranium-238 or thorium-232, which absorbs neutrons and is converted into fissile fuel. Unlike conventional reactors that rely solely on enriched uranium, thermal breeders have the potential to significantly extend the availability of nuclear fuel resources. The advantages of thermal breeders are numerous. First and foremost, they can utilize a wider range of fuels, which makes them more versatile compared to traditional reactors. This flexibility is crucial in addressing the growing demand for energy while minimizing the environmental impact associated with fossil fuels. Furthermore, thermal breeders can help reduce nuclear waste by recycling materials that would otherwise be discarded. This not only makes nuclear energy more sustainable but also addresses public concerns regarding the long-term storage of radioactive waste.Moreover, thermal breeders can contribute to energy security. As countries strive to diversify their energy sources and reduce dependence on imported fossil fuels, investing in thermal breeder technology can provide a reliable and domestically sourced energy supply. This is particularly important in regions where renewable energy sources may not be sufficient to meet energy demands.However, the development and implementation of thermal breeders are not without challenges. One of the primary concerns is the technical complexity involved in designing and operating such reactors. The need for advanced materials that can withstand high temperatures and radiation levels poses significant engineering challenges. Additionally, public perception of nuclear energy remains a hurdle. Incidents like the Fukushima disaster have left many wary of nuclear technology, and it is essential for proponents of thermal breeders to address these concerns through transparent communication and education.In conclusion, thermal breeders represent a promising avenue for advancing nuclear energy technology. By producing more fissile material than they consume, they offer a sustainable solution to the world's growing energy needs. While challenges remain, the potential benefits of thermal breeders in terms of fuel efficiency, waste reduction, and energy security make them worthy of further research and investment. As we continue to explore innovative energy solutions, thermal breeders could play a crucial role in shaping a more sustainable and secure energy future.

在追求可持续能源解决方案的过程中，核能已成为一个重要参与者。在各种类型的核反应堆中，热增殖反应堆的概念尤其值得注意。热增殖反应堆是一种产生比消耗更多裂变材料的核反应堆。这一过程是通过使用如铀-238或钍-232等可育材料来实现的，这些材料吸收中子并转化为裂变燃料。与仅依赖浓缩铀的传统反应堆不同，热增殖反应堆有潜力显著延长核燃料资源的可用性。热增殖反应堆的优势有很多。首要的是，它们可以利用更广泛的燃料，这使得它们相比传统反应堆更具灵活性。这种灵活性对于满足日益增长的能源需求，同时减少与化石燃料相关的环境影响至关重要。此外，热增殖反应堆可以通过回收本应被丢弃的材料来帮助减少核废料。这不仅使核能更加可持续，还解决了公众对放射性废物长期存储的担忧。此外，热增殖反应堆可以为能源安全做出贡献。随着各国努力多样化其能源来源并减少对进口化石燃料的依赖，投资于热增殖反应堆技术可以提供可靠且国内来源的能源供应。这在可再生能源可能不足以满足能源需求的地区尤为重要。然而，热增殖反应堆的发展和实施并非没有挑战。主要问题之一是设计和操作此类反应堆所需的技术复杂性。需要能够承受高温和辐射水平的先进材料带来了重大工程挑战。此外，公众对核能的看法仍然是一个障碍。福岛灾难等事件让许多人对核技术心存疑虑，因此热增殖反应堆的支持者必须通过透明的沟通和教育来解决这些担忧。总之，热增殖反应堆代表了推进核能技术的一个有前途的方向。通过产生比消耗更多的裂变材料，它们为满足全球日益增长的能源需求提供了一种可持续的解决方案。尽管仍然存在挑战，但在燃料效率、废物减少和能源安全方面，热增殖反应堆的潜在好处使其值得进一步研究和投资。随着我们继续探索创新的能源解决方案，热增殖反应堆可能在塑造更可持续和安全的能源未来中发挥关键作用。