atomic reactor containment structure

简明释义

原子反应堆建筑物

英英释义

例句

1.In case of an emergency, the atomic reactor containment structure is designed to prevent the release of radioactive materials.

在紧急情况下，原子反应堆安全壳结构的设计旨在防止放射性物质的释放。

2.Regular maintenance of the atomic reactor containment structure is crucial for operational safety.

定期维护原子反应堆安全壳结构对于运营安全至关重要。

3.The construction of the atomic reactor containment structure requires advanced materials to withstand extreme conditions.

建造原子反应堆安全壳结构需要先进的材料以承受极端条件。

4.The design of the atomic reactor containment structure includes multiple layers of protection.

设计原子反应堆安全壳结构时包含多层保护。

5.The engineers conducted a thorough inspection of the atomic reactor containment structure to ensure its integrity.

工程师们对原子反应堆安全壳结构进行了全面检查，以确保其完整性。

作文

The safety of nuclear power plants is a topic of great importance in today's energy discussions. One of the critical components that ensure the safety and integrity of these facilities is the atomic reactor containment structure. This structure is designed to prevent the release of radioactive materials into the environment, especially in the event of an accident or malfunction. The atomic reactor containment structure consists of robust materials, typically reinforced concrete, which can withstand significant pressure and temperature changes. Its primary function is to contain any radioactive leaks that may occur during operations or emergencies, thus protecting both the plant workers and the surrounding community.In addition to its physical barriers, the atomic reactor containment structure is equipped with various monitoring systems that continuously assess the integrity of the containment. These systems provide real-time data about the conditions within the reactor, allowing for immediate action if any anomalies are detected. Furthermore, the design of the atomic reactor containment structure incorporates multiple layers of safety features, including redundant systems that ensure functionality even if one component fails.The significance of the atomic reactor containment structure was highlighted during several historical incidents, such as the Fukushima disaster in 2011. Although the containment structures in place were tested under extreme conditions, they ultimately played a crucial role in limiting the release of radioactive materials. This incident underscored the need for continuous improvements in containment technology and regulations governing nuclear facilities.Moreover, as the world moves towards more sustainable energy sources, the role of the atomic reactor containment structure becomes even more vital. With the increasing interest in nuclear energy as a low-carbon alternative, ensuring the safety and reliability of these reactors is paramount. Engineers and scientists are continually researching new materials and designs that can enhance the effectiveness of the atomic reactor containment structure, making it even more resilient against potential threats.Public perception of nuclear energy often hinges on safety concerns related to the atomic reactor containment structure. Transparency regarding how these structures are built and maintained is essential in gaining public trust. Educating the community about the stringent safety measures in place can help alleviate fears associated with nuclear power. It is crucial for nuclear facilities to engage with the public, providing information about the atomic reactor containment structure and its role in ensuring safety.In conclusion, the atomic reactor containment structure is a fundamental aspect of nuclear power plant safety. Its ability to contain radioactive materials protects both human health and the environment. As the demand for clean energy grows, the importance of improving and maintaining these structures will only increase. Ongoing research, public education, and transparent communication will play key roles in the future of nuclear energy and its acceptance by society.

核电站的安全性在当今能源讨论中是一个非常重要的话题。确保这些设施安全和完整性的关键组成部分之一是原子反应堆安全壳结构。该结构旨在防止放射性物质在事故或故障发生时释放到环境中。原子反应堆安全壳结构由坚固的材料构成，通常是钢筋混凝土，可以承受显著的压力和温度变化。它的主要功能是在操作或紧急情况下封闭任何可能发生的放射性泄漏，从而保护工人和周围社区。除了物理屏障外，原子反应堆安全壳结构还配备了各种监控系统，这些系统持续评估安全壳的完整性。这些系统提供有关反应堆内部条件的实时数据，如果发现任何异常情况，可以立即采取行动。此外，原子反应堆安全壳结构的设计包含多个安全特性层，包括冗余系统，即使一个组件失效也能确保功能。原子反应堆安全壳结构的重要性在几个历史事件中得到了突出体现，例如2011年的福岛灾难。尽管当时的安全壳结构在极端条件下经过测试，但它们最终在限制放射性物质释放方面发挥了关键作用。这一事件强调了对核设施的安全技术和法规进行持续改进的必要性。此外，随着世界向更可持续的能源源转型，原子反应堆安全壳结构的作用变得更加重要。随着人们对核能作为低碳替代品的日益关注，确保这些反应堆的安全性和可靠性至关重要。工程师和科学家们不断研究新材料和设计，以增强原子反应堆安全壳结构的有效性，使其对潜在威胁更加具有韧性。公众对核能的看法往往取决于与原子反应堆安全壳结构相关的安全问题。关于这些结构如何建造和维护的透明度对于获得公众信任至关重要。教育社区了解现有的严格安全措施可以帮助减轻与核能相关的恐惧。核设施与公众进行互动，提供有关原子反应堆安全壳结构及其在确保安全方面作用的信息至关重要。总之，原子反应堆安全壳结构是核电站安全的基本方面。它封闭放射性物质的能力保护了人类健康和环境。随着清洁能源需求的增长，改善和维护这些结构的重要性将只会增加。持续的研究、公众教育和透明的沟通将在核能的未来及其被社会接受的过程中发挥关键作用。