reactor synchronization
简明释义
粗同步法
英英释义
例句
1.The team monitored the reactor synchronization 反应堆同步 process closely during the startup phase.
在启动阶段,团队密切监控反应堆同步过程。
2.The control system must achieve reactor synchronization 反应堆同步 to maintain stable operations.
控制系统必须实现反应堆同步以维持稳定的操作。
3.During the safety drill, we practiced reactor synchronization 反应堆同步 procedures to prepare for emergencies.
在安全演习中,我们练习了反应堆同步程序,以为紧急情况做准备。
4.The engineers conducted a test to ensure proper reactor synchronization 反应堆同步 before starting the reactor.
工程师们进行了测试,以确保在启动反应堆之前正确的反应堆同步。
5.Any delay in reactor synchronization 反应堆同步 can lead to significant operational issues.
在反应堆同步中的任何延迟都可能导致重大操作问题。
作文
In the world of nuclear engineering, the concept of reactor synchronization plays a pivotal role in ensuring that nuclear reactors operate efficiently and safely. 反应堆同步 refers to the process of aligning the operational parameters of multiple reactors or reactor components to ensure they function harmoniously together. This synchronization is crucial for both safety and performance, as even minor discrepancies can lead to significant operational challenges. When we think about nuclear reactors, it is essential to recognize that they are not standalone systems; rather, they often work in conjunction with other reactors or systems in a power plant. For instance, in a multi-reactor facility, reactor synchronization ensures that the output from each reactor matches the demand on the grid. This is particularly important during peak usage times when electricity demand is high. By synchronizing the reactors, operators can maintain a stable supply of electricity while minimizing the risk of overload or failure.Moreover, reactor synchronization is not just about matching output levels. It also involves coordinating the temperature, pressure, and other critical parameters across reactors. Each reactor has its unique characteristics and operational limits, and achieving synchronization requires sophisticated control systems and constant monitoring. Engineers must be vigilant in adjusting these parameters to avoid situations where one reactor may become overloaded while another is underutilized.The importance of reactor synchronization extends beyond operational efficiency; it is also a matter of safety. Nuclear reactors produce heat through fission reactions, and if one reactor operates out of sync with others, it can lead to dangerous situations, such as overheating or excessive radiation release. Therefore, strict protocols and advanced technologies are employed to ensure that all reactors are synchronized appropriately. In addition to safety and efficiency, reactor synchronization also plays a vital role in the economic aspects of nuclear power generation. By optimizing the output of multiple reactors, power plants can reduce operational costs and increase profitability. This is especially relevant in competitive energy markets where price fluctuations can significantly impact revenues. A well-synchronized reactor system can respond quickly to changes in demand, allowing for better price stability and customer satisfaction.In conclusion, reactor synchronization is a fundamental aspect of nuclear reactor operation that encompasses various technical, safety, and economic considerations. As the demand for clean energy continues to rise, the need for effective synchronization of nuclear reactors will only become more critical. Engineers and operators must continue to develop advanced technologies and strategies to enhance synchronization processes, ensuring that nuclear power remains a safe, efficient, and reliable energy source for the future.
在核工程的世界中,反应堆同步的概念在确保核反应堆高效、安全地运行方面发挥着关键作用。反应堆同步指的是将多个反应堆或反应堆组件的操作参数对齐,以确保它们和谐地共同工作。这种同步对于安全和性能至关重要,因为即使是微小的差异也可能导致重大的操作挑战。当我们考虑核反应堆时,必须认识到它们并不是独立的系统;相反,它们通常与电厂中的其他反应堆或系统协同工作。例如,在一个多反应堆设施中,反应堆同步确保每个反应堆的输出与电网的需求相匹配。这在电力需求高峰期尤为重要,此时电力需求很高。通过同步反应堆,操作人员可以维持稳定的电力供应,同时最小化过载或故障的风险。此外,反应堆同步不仅仅是关于匹配输出水平。它还涉及协调反应堆之间的温度、压力和其他关键参数。每个反应堆都有其独特的特性和操作限制,实现同步需要复杂的控制系统和持续的监测。工程师必须密切关注这些参数的调整,以避免出现一个反应堆过载而另一个未充分利用的情况。反应堆同步的重要性不仅体现在操作效率上;它也是安全问题。核反应堆通过裂变反应产生热量,如果一个反应堆与其他反应堆不同步运行,可能会导致危险情况,例如过热或过量辐射释放。因此,采用严格的协议和先进的技术来确保所有反应堆适当地同步。除了安全性和效率,反应堆同步在核电经济方面也发挥着重要作用。通过优化多个反应堆的输出,电厂可以降低运营成本并增加盈利能力。这在竞争激烈的能源市场中尤其相关,在这种市场中,价格波动可能会显著影响收入。一个良好同步的反应堆系统能够快速响应需求变化,从而实现更好的价格稳定性和客户满意度。总之,反应堆同步是核反应堆运行的一个基本方面,涉及各种技术、安全和经济考虑。随着对清洁能源的需求不断上升,有效的核反应堆同步的需求将变得更加重要。工程师和操作人员必须继续开发先进的技术和策略,以增强同步过程,确保核能在未来仍然是安全、高效和可靠的能源来源。
