reactor containment structure

简明释义

反应堆屏蔽壳

英英释义

例句

1.Regulatory agencies require detailed reports on the integrity of the reactor containment structure.

监管机构要求提供关于反应堆安全壳完整性的详细报告。

2.The design of the reactor containment structure ensures that any potential leaks are contained within a secure environment.

反应堆安全壳的设计确保任何潜在泄漏都被封闭在一个安全的环境中。

3.Engineers regularly inspect the reactor containment structure for signs of wear and tear.

工程师定期检查反应堆安全壳以寻找磨损的迹象。

4.In case of an emergency, the reactor containment structure plays a crucial role in protecting the surrounding area.

在紧急情况下，反应堆安全壳在保护周围地区中发挥着至关重要的作用。

5.The reactor containment structure is built to withstand extreme pressure and temperature fluctuations.

反应堆安全壳的建造能够承受极端的压力和温度波动。

作文

The safety of nuclear power plants is a topic of great importance in today's world, particularly as nations seek to balance energy needs with environmental concerns. One of the critical components that ensure this safety is the reactor containment structure. This structure is designed to prevent the release of radioactive materials into the environment in the event of an accident. The reactor containment structure acts as a barrier, providing a secure enclosure for the reactor and its associated systems. It is typically made from robust materials such as reinforced concrete and steel, which can withstand extreme conditions, including high pressure and temperature. The primary purpose of the reactor containment structure is to contain any potential leaks of radioactive substances. In the unlikely event of a reactor malfunction, this containment system plays a vital role in protecting both the plant workers and the surrounding community. The design of these structures is based on rigorous engineering principles and extensive safety analyses. For instance, they are built to endure natural disasters such as earthquakes and floods, ensuring that the reactor remains secure even under adverse conditions.Moreover, the reactor containment structure is equipped with various safety features, including ventilation systems that can filter out radioactive particles and monitoring equipment to detect any signs of leakage. These systems work together to maintain a safe environment within the containment area and to alert operators to any potential issues before they escalate. The effectiveness of the reactor containment structure is further enhanced by regular inspections and maintenance, which are crucial for identifying and addressing any vulnerabilities.In addition to its physical attributes, the reactor containment structure represents a significant advancement in nuclear safety technology. Over the years, lessons learned from past incidents have led to improvements in design and construction practices. For example, following the Fukushima disaster in Japan, many countries reassessed their containment strategies to incorporate additional safety measures. This proactive approach demonstrates the commitment of the nuclear industry to continuously improve safety standards and protect public health.Public perception of nuclear energy is often influenced by the fear of accidents and the potential consequences of radiation exposure. By investing in robust reactor containment structures, the industry aims to build trust with the community and reassure them that safety is a top priority. Education and transparency about how these structures work and their role in preventing disasters are essential for fostering a positive relationship between nuclear facilities and the public.In conclusion, the reactor containment structure is a fundamental element of nuclear power plant safety. Its ability to contain radioactive materials and protect both people and the environment is crucial for the continued use of nuclear energy as a viable power source. As technology advances and more stringent safety regulations are implemented, the effectiveness of these structures will only improve, further enhancing the safety of nuclear power generation. Understanding the importance of the reactor containment structure is vital for anyone interested in the future of energy production and the role of nuclear power in a sustainable world.

核电站的安全性在当今世界是一个非常重要的话题，尤其是在各国寻求平衡能源需求与环境问题时。确保这种安全性的关键组成部分之一是反应堆安全壳结构。该结构旨在防止在事故发生时放射性物质释放到环境中。反应堆安全壳结构充当屏障，为反应堆及其相关系统提供安全的围护。它通常由钢筋混凝土和钢等坚固材料制成，能够承受高压和高温等极端条件。反应堆安全壳结构的主要目的是容纳任何潜在的放射性物质泄漏。在反应堆发生故障的情况下，这一安全系统在保护厂区工作人员和周边社区方面发挥着至关重要的作用。这些结构的设计基于严格的工程原则和广泛的安全分析。例如，它们被建造以承受自然灾害，如地震和洪水，确保反应堆即使在不利条件下也能保持安全。此外，反应堆安全壳结构配备了多种安全特性，包括可以过滤放射性颗粒的通风系统和用于检测泄漏迹象的监测设备。这些系统共同作用，以维持安全的环境，并在问题升级之前提醒操作员潜在的问题。通过定期检查和维护，反应堆安全壳结构的有效性得到了进一步增强，这对于识别和解决任何脆弱性至关重要。除了其物理属性外，反应堆安全壳结构还代表了核安全技术的重要进步。多年来，从过去事件中吸取的教训导致设计和施工实践的改进。例如，在日本福岛灾难之后，许多国家重新评估了其安全壳策略，以纳入额外的安全措施。这种积极主动的做法表明，核工业致力于不断提高安全标准并保护公众健康。公众对核能的看法往往受到对事故和辐射暴露潜在后果的恐惧影响。通过投资坚固的反应堆安全壳结构，行业旨在与社区建立信任，并向他们保证安全是首要任务。教育和透明度关于这些结构如何工作及其在防止灾难中的作用，对于促进核设施与公众之间的积极关系至关重要。总之，反应堆安全壳结构是核电站安全的基本要素。它容纳放射性物质并保护人类和环境的能力对于继续将核能作为可行的能源来源至关重要。随着技术的进步和更严格的安全法规的实施，这些结构的有效性只会提高，进一步增强核电生产的安全性。理解反应堆安全壳结构的重要性对于任何对未来能源生产和核能在可持续世界中角色感兴趣的人来说都是至关重要的。