uranium oxide

简明释义

氧化铀

英英释义

例句

1.The nuclear power plant uses uranium oxide to fuel its reactors.

核电站使用铀氧化物为其反应堆提供燃料。

2.During the enrichment process, uranium oxide is transformed into a more usable form.

在浓缩过程中，铀氧化物被转化为更可用的形式。

3.The conversion of uranium oxide into fuel pellets is a critical step in nuclear energy production.

将铀氧化物转化为燃料颗粒是核能生产中的关键步骤。

4.The safety protocols for handling uranium oxide are very strict.

处理铀氧化物的安全协议非常严格。

5.Researchers are studying the properties of uranium oxide for advanced nuclear fuels.

研究人员正在研究铀氧化物的特性，以开发先进的核燃料。

作文

Uranium is a heavy metal that is widely known for its use as a fuel in nuclear reactors and in the production of nuclear weapons. One of the most important forms of uranium is its oxide, commonly referred to as uranium oxide (铀氧化物). This compound plays a crucial role in the nuclear industry, particularly in the process of converting uranium into a usable form for energy generation. Uranium oxide is typically produced through the oxidation of uranium metal or uranium hexafluoride, and it exists in several different forms, including UO2 (urania) and U3O8 (triuranium octoxide), each with distinct properties and applications.The primary use of uranium oxide is as a fuel for nuclear reactors. When uranium oxide is used in this context, it is often sintered into pellets that are then loaded into fuel rods. These fuel rods are critical components of nuclear reactors, where they undergo fission—a process in which the nucleus of a uranium atom splits, releasing a significant amount of energy. This energy is harnessed to produce steam, which drives turbines to generate electricity. The efficiency and energy output of nuclear power plants heavily rely on the quality and composition of the uranium oxide used.Moreover, uranium oxide also has implications beyond energy production. In the field of nuclear medicine, isotopes derived from uranium oxide can be utilized for diagnostic imaging and treatment of certain medical conditions. Furthermore, the study of uranium oxide is essential for understanding nuclear waste management. As the use of nuclear energy increases globally, so does the need for safe and effective disposal methods for the radioactive byproducts generated from uranium oxide during the fission process.However, the handling and processing of uranium oxide come with significant safety and environmental concerns. The radioactive nature of uranium means that exposure can pose health risks, including increased chances of cancer. Therefore, stringent regulations and safety measures are implemented in facilities that deal with uranium oxide. Workers are trained to handle this material carefully, and advanced technologies are employed to minimize any potential hazards associated with its use.In conclusion, uranium oxide (铀氧化物) is a vital component of the nuclear energy sector, serving not only as a fuel source but also playing a role in various applications in nuclear medicine and waste management. Understanding the properties and implications of uranium oxide is essential for anyone involved in the nuclear industry, as well as for policymakers and environmentalists who seek to balance energy needs with safety and sustainability. As the world continues to explore alternative energy sources, the role of uranium oxide will undoubtedly remain significant in the ongoing conversation about our energy future.

铀是一种重金属，广泛用于核反应堆的燃料和核武器的生产。其中一种最重要的铀形式是它的氧化物，通常称为铀氧化物。这种化合物在核工业中扮演着至关重要的角色，特别是在将铀转化为可用于能源生成的形式的过程中。铀氧化物通常通过铀金属或六氟化铀的氧化反应产生，存在几种不同的形式，包括UO2（铀二氧化物）和U3O8（三铀八氧化物），每种形式都有独特的性质和应用。铀氧化物的主要用途是作为核反应堆的燃料。当铀氧化物用于此上下文时，通常会被烧结成颗粒，然后装入燃料棒。这些燃料棒是核反应堆的关键组件，在这里它们经历裂变——一个铀原子核分裂的过程，释放出大量的能量。这种能量被用来产生蒸汽，驱动涡轮发电。核电厂的效率和能量输出在很大程度上依赖于使用的铀氧化物的质量和组成。此外，铀氧化物在核医学领域也有超越能源生产的影响。来自铀氧化物的同位素可以用于某些医疗条件的诊断成像和治疗。此外，研究铀氧化物对于理解核废料管理至关重要。随着全球核能的使用增加，安全有效的处理铀氧化物在裂变过程中产生的放射性副产品的需求也随之增加。然而，处理和加工铀氧化物带来了显著的安全和环境问题。铀的放射性特性意味着暴露可能带来健康风险，包括癌症的发生率增加。因此，在处理铀氧化物的设施中实施严格的法规和安全措施。工作人员接受了小心处理该材料的培训，并采用先进技术以最小化与其使用相关的潜在危害。总之，铀氧化物（铀氧化物）是核能部门的重要组成部分，不仅作为燃料来源，还在核医学和废物管理的各种应用中发挥作用。了解铀氧化物的性质和影响对任何参与核工业的人，以及希望在能源需求与安全和可持续性之间取得平衡的政策制定者和环境保护主义者来说都是必不可少的。随着世界继续探索替代能源，铀氧化物在关于我们能源未来的持续讨论中无疑将保持重要地位。