reactor core isolation cooling system

简明释义

反应堆堆芯隔离冷却系统

英英释义

例句

1.The reactor core isolation cooling system 反应堆核心隔离冷却系统 is critical for maintaining safety in nuclear power plants.

反应堆核心隔离冷却系统对核电站的安全维护至关重要。

2.The reactor core isolation cooling system 反应堆核心隔离冷却系统 is designed to function independently of other cooling systems.

反应堆核心隔离冷却系统旨在独立于其他冷却系统运行。

3.In the event of a loss of coolant accident, the reactor core isolation cooling system 反应堆核心隔离冷却系统 can prevent overheating.

在冷却剂丧失事故发生时，反应堆核心隔离冷却系统可以防止过热。

4.Regular maintenance checks are necessary to ensure the reactor core isolation cooling system 反应堆核心隔离冷却系统 operates effectively.

定期维护检查是确保反应堆核心隔离冷却系统有效运行的必要条件。

5.During the emergency drill, operators practiced using the reactor core isolation cooling system 反应堆核心隔离冷却系统 to cool down the reactor.

在紧急演习中，操作员练习使用反应堆核心隔离冷却系统来冷却反应堆。

作文

In the realm of nuclear engineering, safety is paramount, and one of the critical components designed to ensure this safety is the reactor core isolation cooling system. This system plays an essential role in maintaining the integrity and stability of a nuclear reactor during various operational scenarios, particularly in emergencies. To fully grasp the significance of the reactor core isolation cooling system, it is important to understand its functions, applications, and the technology behind it.The reactor core isolation cooling system is primarily responsible for cooling the reactor core when the main cooling systems are compromised or during specific operational conditions. This can occur during a loss of coolant accident (LOCA) or when the reactor is shut down for maintenance. The system ensures that the temperature of the reactor core remains within safe limits, preventing overheating and potential catastrophic failures.One of the key features of the reactor core isolation cooling system is its independence from the primary cooling system. This redundancy is crucial because it provides an additional layer of safety. In the event of a primary system failure, the reactor core isolation cooling system can be activated to maintain cooling, thus safeguarding the reactor core and the surrounding environment.The design of the reactor core isolation cooling system varies depending on the type of reactor and the specific safety requirements mandated by regulatory bodies. Typically, it includes dedicated pumps, heat exchangers, and piping systems that are separate from the main cooling loop. This isolation ensures that even if the primary system fails, the reactor core isolation cooling system can function independently and effectively.Furthermore, the reactor core isolation cooling system is equipped with advanced monitoring and control systems. These systems provide real-time data on the temperature and pressure within the reactor core, allowing operators to make informed decisions quickly. In emergency situations, automated controls can initiate the cooling process without human intervention, further enhancing safety.In addition to its safety functions, the reactor core isolation cooling system also plays a role in the overall efficiency of the nuclear power plant. By ensuring that the reactor core is adequately cooled, it allows for more stable operations and can contribute to the longevity of the reactor components. This is particularly important in the context of increasing energy demands and the need for reliable, long-term energy sources.In conclusion, the reactor core isolation cooling system is a vital component of nuclear reactor safety and efficiency. Its ability to operate independently of the primary cooling systems provides an essential safeguard against potential accidents. As the world continues to seek sustainable energy solutions, understanding and improving systems like the reactor core isolation cooling system will be crucial in ensuring the safe and efficient use of nuclear energy. The ongoing advancements in technology and safety protocols will further enhance the reliability of these systems, ultimately contributing to a safer future for nuclear power generation.

在核工程领域，安全至关重要，而确保这一安全的关键组件之一就是反应堆核心隔离冷却系统。该系统在保持核反应堆在各种操作场景下，尤其是紧急情况下的完整性和稳定性方面扮演着至关重要的角色。要充分理解反应堆核心隔离冷却系统的重要性，了解其功能、应用及其背后的技术非常重要。反应堆核心隔离冷却系统主要负责在主要冷却系统受损或在特定操作条件下冷却反应堆核心。这可能发生在冷却剂丧失事故（LOCA）期间，或者当反应堆关闭进行维护时。该系统确保反应堆核心的温度保持在安全范围内，防止过热和潜在的灾难性故障。反应堆核心隔离冷却系统的一个关键特点是其独立于主要冷却系统。这样的冗余设计至关重要，因为它提供了额外的安全层。在主要系统发生故障的情况下，可以启动反应堆核心隔离冷却系统以维持冷却，从而保护反应堆核心和周围环境。反应堆核心隔离冷却系统的设计因反应堆类型和监管机构规定的具体安全要求而异。通常，它包括专用泵、热交换器和与主冷却回路分开的管道系统。这种隔离确保即使主要系统发生故障，反应堆核心隔离冷却系统也能独立有效地运作。此外，反应堆核心隔离冷却系统还配备了先进的监控和控制系统。这些系统提供反应堆核心内温度和压力的实时数据，使操作员能够快速做出明智的决策。在紧急情况下，自动控制可以在没有人为干预的情况下启动冷却过程，进一步增强安全性。除了安全功能之外，反应堆核心隔离冷却系统还在核电站的整体效率中发挥作用。通过确保反应堆核心得到充分冷却，它可以实现更稳定的操作，并有助于延长反应堆组件的使用寿命。这在能源需求不断增加和对可靠、长期能源来源的需求背景下尤为重要。总之，反应堆核心隔离冷却系统是核反应堆安全和效率的重要组成部分。其独立于主要冷却系统运行的能力为潜在事故提供了必要的保障。随着世界继续寻求可持续的能源解决方案，理解和改进如反应堆核心隔离冷却系统这样的系统对于确保核能的安全和高效使用至关重要。技术和安全协议的持续进步将进一步增强这些系统的可靠性，最终为核电发电的更安全未来做出贡献。