reactor boundary
简明释义
反应堆边界
英英释义
例句
1.Engineers must ensure that all materials used within the reactor boundary meet high safety standards.
工程师必须确保在反应堆边界内使用的所有材料都符合高安全标准。
2.During the inspection, we found that the reactor boundary was intact and secure.
在检查过程中,我们发现反应堆边界完好无损且安全。
3.The reactor boundary is crucial for containing radioactive materials during operation.
在运行期间,反应堆边界对于控制放射性材料至关重要。
4.The safety protocols require constant monitoring of the reactor boundary to prevent any leaks.
安全协议要求对反应堆边界进行持续监测,以防止任何泄漏。
5.Regular maintenance checks are essential to uphold the integrity of the reactor boundary.
定期维护检查对于保持反应堆边界的完整性至关重要。
作文
In the field of nuclear engineering, the term reactor boundary refers to the physical limits that define the operational area of a nuclear reactor. This boundary is crucial for ensuring the safety and efficiency of the nuclear fission process. The reactor boundary serves as a protective barrier that not only contains the nuclear reactions but also prevents the escape of harmful radiation into the environment. Understanding the significance of this boundary is essential for engineers and safety personnel who work in nuclear facilities.The reactor boundary is typically made up of multiple layers, including the reactor vessel, containment structures, and various shielding materials. These components work together to create a secure environment for the nuclear reactions to take place. The reactor vessel itself is designed to withstand high pressure and temperature, while the containment structures provide an additional layer of security against potential leaks or failures.One of the primary functions of the reactor boundary is to ensure that any radioactive materials remain contained within the reactor system. This is vital for protecting plant workers, the surrounding community, and the environment from exposure to radiation. For instance, if a breach occurs in the reactor boundary, it could lead to a release of radioactive substances, which could have catastrophic consequences.Moreover, the design and maintenance of the reactor boundary are subject to stringent regulatory standards imposed by government agencies. These regulations are established to ensure that all nuclear facilities operate safely and effectively. Engineers must conduct regular inspections and assessments of the reactor boundary to identify any potential weaknesses or vulnerabilities that could compromise its integrity.In addition to safety concerns, the reactor boundary plays a significant role in the overall efficiency of the nuclear reactor. A well-designed boundary can enhance the reactor's performance by minimizing heat loss and optimizing the conditions for nuclear fission. This, in turn, leads to increased energy production and reduced operational costs.As technology advances, the design of the reactor boundary continues to evolve. Innovations such as advanced materials and improved engineering techniques are being explored to enhance the safety and efficiency of nuclear reactors. Researchers are also investigating new methods for monitoring the integrity of the reactor boundary, allowing for real-time assessments of its condition.In conclusion, the concept of the reactor boundary is fundamental to the operation of nuclear reactors. It encompasses the physical and regulatory measures that ensure the safe containment of nuclear reactions and the protection of both people and the environment. As the demand for clean energy sources continues to grow, understanding and improving the reactor boundary will be crucial for the future of nuclear power generation. By prioritizing safety and efficiency, we can harness the potential of nuclear energy while minimizing the risks associated with its use.
在核工程领域,术语反应堆边界指的是定义核反应堆操作区域的物理限制。这个边界对于确保核裂变过程的安全性和效率至关重要。反应堆边界作为一层保护屏障,不仅包含核反应,还防止有害辐射泄漏到环境中。理解这个边界的重要性对于在核设施工作的人们,尤其是工程师和安全人员,是必不可少的。反应堆边界通常由多个层次组成,包括反应堆容器、围护结构以及各种屏蔽材料。这些组件共同作用,创造出一个安全的环境,以便核反应得以进行。反应堆容器本身设计用于承受高压和高温,而围护结构则提供了额外的安全层,以防止潜在的泄漏或故障。反应堆边界的主要功能之一是确保任何放射性材料保持在反应堆系统内。这对于保护工人、周围社区和环境免受辐射暴露至关重要。例如,如果反应堆边界发生破裂,可能导致放射性物质的释放,这可能会造成灾难性的后果。此外,反应堆边界的设计和维护受到政府机构严格的监管标准的约束。这些规定旨在确保所有核设施安全有效地运行。工程师必须定期检查和评估反应堆边界,以识别可能的弱点或漏洞,这些问题可能会危及其完整性。除了安全隐患,反应堆边界在核反应堆的整体效率中也起着重要作用。良好设计的边界可以通过最小化热损失和优化核裂变条件来提高反应堆的性能。这反过来又导致能源生产的增加和运营成本的降低。随着技术的进步,反应堆边界的设计也在不断演变。研究人员正在探索先进材料和改进工程技术等创新,以增强核反应堆的安全性和效率。此外,研究人员还在调查监测反应堆边界完整性的新的方法,以便实时评估其状况。总之,反应堆边界的概念是核反应堆操作的基础。它涵盖了确保核反应安全包含和保护人类及环境的物理和监管措施。随着对清洁能源需求的不断增长,理解和改善反应堆边界将对未来的核电发电至关重要。通过优先考虑安全性和效率,我们可以利用核能的潜力,同时将其使用相关的风险降到最低。
