reactor containment building

简明释义

反应堆安全壳建筑物

英英释义

例句

1.In the event of a malfunction, the reactor containment building plays a critical role in preventing radiation release.

在故障发生时，反应堆安全壳建筑在防止辐射释放方面起着关键作用。

2.During the safety drill, the team practiced responding to an emergency in the reactor containment building.

在安全演习中，团队练习了如何应对反应堆安全壳建筑中的紧急情况。

3.The reactor containment building is constructed using reinforced concrete to withstand extreme conditions.

反应堆安全壳建筑采用加固混凝土建造，以承受极端条件。

4.The design of the reactor containment building ensures that any potential leaks are contained safely.

该反应堆安全壳建筑的设计确保任何潜在泄漏都能安全地被控制。

5.Engineers monitor the integrity of the reactor containment building regularly to ensure safety.

工程师定期监测反应堆安全壳建筑的完整性，以确保安全。

作文

The safety of nuclear power plants is a topic of great importance in today's energy discussions. One crucial component of this safety is the reactor containment building, which plays a vital role in ensuring that any potential release of radioactive materials is contained within a secure structure. The reactor containment building is designed to withstand extreme events, such as earthquakes, floods, and even plane crashes, providing an additional layer of protection for both the plant and the surrounding environment.The primary purpose of the reactor containment building is to prevent the escape of radioactive substances into the atmosphere in the event of an accident. This structure is typically made from reinforced concrete and steel, making it incredibly strong and durable. Its design often includes thick walls and a double-layered roof to ensure that any radiation remains trapped inside. In essence, the reactor containment building acts as a fortress, safeguarding the reactor core and the public from potential hazards.In addition to its physical attributes, the reactor containment building is equipped with various safety systems that monitor and control the conditions within the reactor. These systems are designed to detect any anomalies and take corrective actions before a situation escalates into a serious incident. For example, if there were to be an increase in pressure or temperature within the reactor, the containment building's systems would automatically initiate cooling processes and vent excess pressure safely. This proactive approach is essential in maintaining the integrity of the containment structure and ensuring the safety of those living nearby.The historical context of the reactor containment building can also provide insight into its significance. After notable nuclear accidents, such as the Chernobyl disaster in 1986 and the Fukushima Daiichi incident in 2011, the design and construction of reactor containment buildings have been scrutinized and improved. Regulatory bodies worldwide have established stringent guidelines to enhance the robustness of these structures, reflecting the lessons learned from past mistakes. As a result, modern reactor containment buildings incorporate advanced technologies and materials that further increase their resilience against unforeseen challenges.Public perception of nuclear energy is often influenced by the presence and effectiveness of the reactor containment building. Many people feel more secure knowing that there is a comprehensive system in place to protect them from potential nuclear incidents. Education and transparency regarding the safety measures surrounding nuclear power, including the function of the reactor containment building, can help alleviate fears and foster a more informed dialogue about the benefits and risks associated with this energy source.In conclusion, the reactor containment building is a cornerstone of nuclear safety, designed to protect both the environment and human life from the dangers of radiation. Its robust construction, combined with sophisticated monitoring systems, ensures that any potential incidents can be managed effectively. As we continue to explore sustainable energy solutions, understanding the role of the reactor containment building will remain essential in shaping our perspectives on nuclear power and its place in the future of energy production.

核电站的安全性是当今能源讨论中一个非常重要的话题。其中一个关键组成部分就是反应堆安全壳建筑，它在确保任何潜在放射性物质被安全控制方面发挥着至关重要的作用。反应堆安全壳建筑旨在承受极端事件，例如地震、洪水甚至飞机坠毁，为电厂和周围环境提供额外的保护层。反应堆安全壳建筑的主要目的是防止在事故发生时放射性物质逃逸到大气中。该结构通常由钢筋混凝土和钢材制成，具有极强的耐久性和坚固性。其设计通常包括厚墙和双层屋顶，以确保任何辐射都能被困在内部。从本质上讲，反应堆安全壳建筑就像一座堡垒，保护反应堆核心和公众免受潜在危害。除了物理特性外，反应堆安全壳建筑还配备了各种安全系统，这些系统监测和控制反应堆内的条件。这些系统旨在检测任何异常情况，并在情况升级为严重事件之前采取纠正措施。例如，如果反应堆内的压力或温度增加，安全壳建筑的系统将自动启动冷却过程，并安全释放多余压力。这种主动的方法对于维护安全壳结构的完整性和确保附近居民的安全至关重要。反应堆安全壳建筑的历史背景也可以提供对其重要性的深入了解。在一些显著的核事故之后，例如1986年的切尔诺贝利灾难和2011年的福岛第一核电站事件，反应堆安全壳建筑的设计和建造受到了审查和改进。全球各地的监管机构已建立严格的指导方针，以增强这些结构的坚固性，反映出从过去错误中吸取的教训。因此，现代的反应堆安全壳建筑结合了先进的技术和材料，进一步提高了其抵御不可预见挑战的能力。公众对核能的看法往往受到反应堆安全壳建筑存在和有效性的影响。许多人感到更安心，因为知道有一个全面的系统来保护他们免受潜在的核事件。关于核电的安全措施的教育和透明度，包括反应堆安全壳建筑的功能，可以帮助减轻恐惧，促进对这种能源来源的益处和风险的更知情的对话。总之，反应堆安全壳建筑是核安全的基石，旨在保护环境和人类生命免受辐射的危险。其坚固的结构，加上先进的监测系统，确保任何潜在事件能够得到有效管理。随着我们继续探索可持续能源解决方案，理解反应堆安全壳建筑的作用将继续在塑造我们对核能及其在未来能源生产中的地位的看法中发挥重要作用。