emergency exciter set

简明释义

应急励磁机组

英英释义

例句

1.The technician performed routine checks on the emergency exciter set 应急激励装置 to confirm its readiness for unexpected outages.

技术人员对emergency exciter set 应急激励装置进行了例行检查，以确认其对意外停电的准备情况。

2.The emergency exciter set 应急激励装置 is crucial for maintaining voltage levels during sudden load changes.

在突然负载变化期间，emergency exciter set 应急激励装置 对维持电压水平至关重要。

3.We installed a new emergency exciter set 应急激励装置 to enhance the reliability of our backup power systems.

我们安装了新的emergency exciter set 应急激励装置以增强备用电源系统的可靠性。

4.In case of a power failure, the emergency exciter set 应急激励装置 activates automatically to ensure generator stability.

在停电的情况下，emergency exciter set 应急激励装置 会自动启动以确保发电机的稳定性。

5.During the safety drill, we tested the functionality of the emergency exciter set 应急激励装置 to ensure it operates effectively under pressure.

在安全演习中，我们测试了emergency exciter set 应急激励装置的功能，以确保其在压力下有效运行。

作文

In modern electrical engineering, the reliability and stability of power generation are paramount. One critical component that ensures this stability is the emergency exciter set. An emergency exciter set refers to a backup system that provides excitation to generators in the event of a primary excitation system failure. This is particularly important in large power plants where any interruption in generator performance can lead to significant economic losses and safety hazards.The function of an emergency exciter set is to maintain the voltage levels necessary for the generator to operate effectively. Generators require a certain level of excitation to produce electricity, and without it, they can quickly lose their ability to generate power. The emergency exciter set comes into play when the main excitation system experiences issues, ensuring that the generator continues to operate smoothly until the problem is resolved.An emergency exciter set typically consists of a small generator or a battery system that can provide the necessary power to the excitation system. It is designed to activate automatically when a fault is detected in the primary system, allowing for a seamless transition that minimizes downtime. This automatic response is crucial in maintaining the operational integrity of power plants, especially during peak demand periods when the grid is under the most stress.Moreover, the implementation of an emergency exciter set is not only a technical necessity but also a regulatory requirement in many regions. Power plants must adhere to strict guidelines that mandate backup systems to ensure continuous power supply. Regulatory bodies often conduct audits and inspections to verify that these systems are in place and functioning correctly.In addition to its technical specifications, the emergency exciter set also plays a role in the overall safety protocols of power generation facilities. By providing a reliable means of excitation during emergencies, it helps prevent catastrophic failures that could endanger personnel and equipment. This aspect of safety is particularly critical in facilities that operate with high voltages and large machinery, where the consequences of a failure can be severe.Furthermore, advancements in technology have led to the development of more sophisticated emergency exciter sets. Modern systems may incorporate features such as remote monitoring, diagnostics, and automated testing to ensure their readiness at all times. These innovations not only enhance the reliability of the power generation process but also contribute to the efficiency and sustainability of energy production.In conclusion, the emergency exciter set is an indispensable component of modern power generation systems. Its ability to provide backup excitation in emergencies ensures that generators can continue to operate even in the face of technical failures. As the demand for reliable and stable power continues to grow, the significance of emergency exciter sets will only increase, making them a vital focus for engineers and power plant operators alike. Understanding the role and functionality of the emergency exciter set is essential for anyone involved in the field of electrical engineering and energy management.

在现代电气工程中，发电的可靠性和稳定性至关重要。确保这种稳定性的一个关键组件是应急励磁装置。应急励磁装置指的是在主要励磁系统故障时为发电机提供励磁的备用系统。这在大型发电厂中尤为重要，因为发电机性能的任何中断都可能导致重大的经济损失和安全隐患。应急励磁装置的功能是维持发电机有效运行所需的电压水平。发电机需要一定的励磁水平才能产生电力，如果没有它，发电机很快就会失去发电能力。当主励磁系统出现问题时，应急励磁装置便会发挥作用，确保发电机继续顺利运行，直到问题得到解决。应急励磁装置通常由一个小型发电机或电池系统组成，可以为励磁系统提供必要的电力。它被设计为在检测到主系统故障时自动激活，从而实现无缝切换，最大限度地减少停机时间。这种自动响应对于维护发电厂的操作完整性至关重要，尤其是在电网承受最大压力的高峰需求期间。此外，在许多地区，实施应急励磁装置不仅是技术上的必要性，还是法规要求。发电厂必须遵循严格的指南，规定必须有备用系统以确保持续供电。监管机构通常会进行审计和检查，以验证这些系统是否到位并正常运行。除了其技术规格外，应急励磁装置在发电设施的整体安全协议中也发挥着重要作用。通过在紧急情况下提供可靠的励磁手段，它有助于防止可能危害人员和设备的灾难性故障。这一安全方面在高电压和大型机械操作的设施中尤为重要，因为故障的后果可能非常严重。此外，技术的进步导致了更复杂的应急励磁装置的发展。现代系统可能集成了远程监控、诊断和自动测试等功能，以确保其随时准备就绪。这些创新不仅增强了发电过程的可靠性，还促进了能源生产的效率和可持续性。总之，应急励磁装置是现代发电系统不可或缺的组成部分。它在紧急情况下提供备用励磁的能力确保了发电机即使在技术故障面前仍能继续运行。随着对可靠和稳定电力需求的不断增长，应急励磁装置的重要性只会增加，使其成为工程师和发电厂运营商的一个重要关注点。理解应急励磁装置的作用和功能对于任何参与电气工程和能源管理领域的人来说都是至关重要的。