reactor auxiliary system

简明释义

反应堆辅助系统

英英释义

例句

1.The reactor auxiliary system plays a crucial role in maintaining the reactor's temperature.

在维持反应堆温度方面，反应堆辅助系统起着至关重要的作用。

2.Training for operators includes understanding the reactor auxiliary system and its components.

操作员的培训包括理解反应堆辅助系统及其组件。

3.The engineers are upgrading the reactor auxiliary system to improve safety measures.

工程师正在升级反应堆辅助系统以提高安全措施。

4.The maintenance team performed a routine check on the reactor auxiliary system to ensure its proper functioning.

维护团队对反应堆辅助系统进行了例行检查，以确保其正常运行。

5.In case of an emergency, the reactor auxiliary system is designed to provide backup cooling.

在紧急情况下，反应堆辅助系统旨在提供备用冷却。

作文

The operation of a nuclear power plant relies heavily on various systems that ensure safety, efficiency, and reliability. One such critical component is the reactor auxiliary system, which plays an essential role in supporting the primary reactor operations. The reactor auxiliary system encompasses a range of functions, including cooling, control, and monitoring, all of which are vital for maintaining optimal conditions within the reactor environment.At its core, the reactor auxiliary system is designed to provide support to the main reactor system. This includes managing the temperature and pressure levels within the reactor vessel. For instance, during normal operations, the reactor auxiliary system ensures that the coolant circulates effectively, preventing overheating of the reactor core. If the temperature exceeds safe limits, the auxiliary system can activate backup cooling mechanisms to safeguard the reactor.In addition to cooling, the reactor auxiliary system is also responsible for monitoring various parameters that are critical for safe operation. This includes measuring radiation levels, pressure, and temperature throughout the reactor and its surroundings. The data collected by the reactor auxiliary system is crucial for operators, allowing them to make informed decisions about adjustments or interventions that may be necessary to maintain safety standards.Moreover, the reactor auxiliary system includes emergency systems that are activated in case of unexpected incidents. For example, if there is a loss of coolant accident (LOCA), the reactor auxiliary system will initiate emergency protocols to prevent a meltdown. This might involve injecting additional coolant or activating containment measures to secure the reactor.The integration of the reactor auxiliary system with other safety systems is another critical aspect of its function. It works in conjunction with the primary control systems to ensure that all components are synchronized and operating as intended. This level of integration helps to create a robust framework for managing potential risks associated with nuclear energy production.Furthermore, advancements in technology have led to improvements in the design and functionality of the reactor auxiliary system. Modern reactors often incorporate sophisticated digital monitoring systems that enhance the ability to track performance metrics in real time. This not only increases operational efficiency but also strengthens safety protocols, as operators can respond more quickly to any anomalies detected by the system.In conclusion, the reactor auxiliary system is an indispensable part of nuclear reactor operations. By providing essential support functions such as cooling, monitoring, and emergency management, it ensures that the reactor can operate safely and effectively. As technology continues to evolve, the reactor auxiliary system will undoubtedly become even more advanced, further enhancing the safety and reliability of nuclear power plants. Understanding the significance of the reactor auxiliary system is crucial for anyone involved in the field of nuclear engineering, as it embodies the principles of safety and efficiency that are paramount in this industry.

核电站的运行在很大程度上依赖于各种系统，以确保安全、效率和可靠性。其中一个关键组成部分是反应堆辅助系统，它在支持主要反应堆操作中发挥着至关重要的作用。反应堆辅助系统包括一系列功能，包括冷却、控制和监测，这些都是维持反应堆环境最佳条件所必需的。在其核心，反应堆辅助系统旨在为主反应堆系统提供支持。这包括管理反应堆容器内的温度和压力水平。例如，在正常操作期间，反应堆辅助系统确保冷却剂有效循环，防止反应堆核心过热。如果温度超过安全限制，辅助系统可以激活备用冷却机制，以保护反应堆。除了冷却，反应堆辅助系统还负责监测各种对安全运行至关重要的参数。这包括测量反应堆及其周围环境中的辐射水平、压力和温度。反应堆辅助系统收集的数据对操作员至关重要，使他们能够就可能需要进行的调整或干预做出明智的决策，以维护安全标准。此外，反应堆辅助系统包括在意外事件发生时启动的应急系统。例如，如果发生冷却剂丧失事故（LOCA），反应堆辅助系统将启动应急协议，以防止熔毁。这可能涉及注入额外的冷却剂或激活封闭措施以确保反应堆的安全。反应堆辅助系统与其他安全系统的集成是其功能的另一个关键方面。它与主要控制系统协同工作，以确保所有组件同步并按预期运行。这种集成水平有助于建立一个强大的框架，以管理与核能生产相关的潜在风险。此外，技术的进步导致了反应堆辅助系统的设计和功能的改善。现代反应堆通常包含先进的数字监控系统，增强了实时跟踪性能指标的能力。这不仅提高了操作效率，还加强了安全协议，因为操作员可以更快地响应系统检测到的任何异常。总之，反应堆辅助系统是核反应堆操作中不可或缺的一部分。通过提供诸如冷却、监测和应急管理等基本支持功能，它确保反应堆能够安全有效地运行。随着技术的不断发展，反应堆辅助系统无疑会变得更加先进，进一步增强核电站的安全性和可靠性。理解反应堆辅助系统的重要性对于任何参与核工程领域的人来说都是至关重要的，因为它体现了这一行业至关重要的安全和效率原则。