parallel operation at changeover of generator
简明释义
发电机切换并联
英英释义
The simultaneous operation of multiple generators during the transition from one generator to another, ensuring a continuous power supply. | 在从一个发电机切换到另一个发电机时,多个发电机同时运行,以确保电力供应的连续性。 |
例句
1.The training session focused on the safety measures during parallel operation at changeover of generator 发电机切换时的并行运行.
培训课程集中于发电机切换时的并行运行期间的安全措施.
2.In our facility, we have protocols for parallel operation at changeover of generator 发电机切换时的并行运行 to avoid power interruptions.
在我们的设施中,我们有关于发电机切换时的并行运行的协议,以避免电力中断.
3.We recorded the voltage levels during parallel operation at changeover of generator 发电机切换时的并行运行 to ensure stability.
我们记录了发电机切换时的并行运行期间的电压水平,以确保稳定性.
4.The engineers tested the system to confirm the parallel operation at changeover of generator 发电机切换时的并行运行 was functioning correctly.
工程师测试了系统,以确认发电机切换时的并行运行是否正常工作.
5.During the maintenance of the main generator, we ensured that the backup unit was ready for parallel operation at changeover of generator 发电机切换时的并行运行.
在主发电机维护期间,我们确保备用单元准备好进行发电机切换时的并行运行.
作文
In modern power systems, the reliability and efficiency of electricity generation are paramount. One crucial aspect of this process is ensuring that multiple generators can operate seamlessly together, especially during transitions or outages. This is where the concept of parallel operation at changeover of generator becomes significant. The ability to connect and disconnect generators without interrupting the power supply is essential for maintaining a stable electrical grid.When we talk about parallel operation at changeover of generator, we refer to the simultaneous functioning of two or more generators to share the load. This technique is particularly useful when one generator needs maintenance or when there’s a need to increase capacity due to higher demand. By synchronizing the generators, operators can ensure a smooth transition between them, avoiding any sudden drops in voltage or frequency that could disrupt service.The process begins with careful planning and monitoring. Before initiating the parallel operation at changeover of generator, engineers must check the parameters of each generator, including voltage, frequency, and phase sequence. These factors must align perfectly to prevent damage to the equipment and ensure safety. Once verified, operators can proceed with the synchronization process, which involves adjusting the speed and output of the generators to match one another.During the actual changeover, operators use specialized equipment to manage the transition. Automatic synchronization systems can facilitate this process, allowing for real-time adjustments as conditions change. If everything is aligned correctly, the generators can switch from one to the other without any noticeable effect on the power supply. This is the essence of parallel operation at changeover of generator: maintaining continuity and stability in power delivery.However, challenges can arise during this process. For instance, if the generators are not properly synchronized, it could lead to mechanical stress or even failure of the equipment. Additionally, fluctuations in power demand can complicate the changeover, requiring operators to constantly monitor and adjust the generators' outputs. Therefore, thorough training and experience are vital for personnel involved in this operation.In conclusion, the parallel operation at changeover of generator is a critical practice in the field of electrical engineering. It not only enhances the reliability of power systems but also optimizes resource use by allowing for flexible and responsive energy management. As technology continues to advance, the methods used for synchronization and changeover will likely become even more sophisticated, further improving the efficiency and stability of our electrical grids. Understanding this concept is essential for anyone involved in power generation and distribution, as it lays the groundwork for effective energy management in an increasingly complex world.
在现代电力系统中,电力生成的可靠性和效率至关重要。这个过程的一个关键方面是确保多个发电机能够无缝协同工作,特别是在过渡或停电期间。这就是发电机切换时的并联操作概念变得重要的地方。能够在不中断电源的情况下连接和断开发电机,对于维持稳定的电网至关重要。当我们谈论发电机切换时的并联操作时,我们指的是两个或多个发电机同时运行以共享负载。这种技术在一个发电机需要维护或由于需求增加而需要提高容量时特别有用。通过对发电机进行同步,操作员可以确保它们之间的平稳过渡,避免任何可能干扰服务的电压或频率突然下降。该过程始于仔细的规划和监控。在启动发电机切换时的并联操作之前,工程师必须检查每个发电机的参数,包括电压、频率和相序。这些因素必须完全一致,以防止设备损坏并确保安全。一旦确认,操作员就可以继续进行同步过程,这涉及调整发电机的速度和输出,以使其彼此匹配。在实际切换过程中,操作员使用专门的设备来管理过渡。自动同步系统可以促进这一过程,允许实时调整,因为条件会发生变化。如果一切都正确对齐,发电机可以在电源供应上没有明显影响的情况下进行切换。这就是发电机切换时的并联操作的本质:保持电力交付的连续性和稳定性。然而,在此过程中可能会出现挑战。例如,如果发电机没有正确同步,可能会导致机械应力甚至设备故障。此外,电力需求的波动可能会使切换变得复杂,要求操作员不断监控和调整发电机的输出。因此,参与此操作的人员必须接受充分的培训和积累经验。总之,发电机切换时的并联操作是电气工程领域的一项关键实践。它不仅增强了电力系统的可靠性,还通过允许灵活和响应的能源管理来优化资源使用。随着技术的不断进步,用于同步和切换的方法可能会变得更加复杂,进一步提高我们电网的效率和稳定性。理解这一概念对于任何从事发电和配电的人来说都是至关重要的,因为它为在日益复杂的世界中有效的能源管理奠定了基础。
相关单词
