independent driven exciter system

简明释义

独立励磁制

英英释义

例句

1.Our research indicates that the independent driven exciter system reduces maintenance costs significantly.

我们的研究表明，独立驱动励磁系统显著降低了维护成本。

2.In modern turbines, the independent driven exciter system plays a crucial role in voltage regulation.

在现代涡轮机中，独立驱动励磁系统在电压调节中发挥着至关重要的作用。

3.The power plant utilizes an independent driven exciter system to enhance generator stability.

发电厂使用独立驱动励磁系统来增强发电机的稳定性。

4.Engineers prefer the independent driven exciter system for its reliability under varying load conditions.

工程师们更喜欢独立驱动励磁系统，因为它在不同负载条件下的可靠性。

5.The independent driven exciter system can be monitored remotely for improved operational efficiency.

独立驱动励磁系统可以远程监控，以提高操作效率。

作文

In recent years, the field of electrical engineering has seen significant advancements, particularly in the design and implementation of various systems that enhance the efficiency and performance of electrical machines. One such innovation is the independent driven exciter system, which plays a crucial role in the operation of synchronous generators. Understanding this system is essential for engineers and technicians who work with power generation and distribution. The independent driven exciter system can be defined as a system that provides excitation to a synchronous machine independently from its main rotor. This means that the exciter operates on a separate drive mechanism, allowing for greater flexibility and control over the excitation process. The primary purpose of this system is to maintain the voltage levels of the generator, ensuring stable and reliable power output. One of the key advantages of the independent driven exciter system is its ability to respond quickly to changes in load demand. Traditional excitation systems often rely on the generator's rotor movement, which can lead to delays in voltage regulation. However, with an independent exciter, adjustments can be made almost instantaneously, improving the overall stability of the power system. This feature is particularly beneficial in modern power grids, where fluctuating demand is common due to the integration of renewable energy sources. Moreover, the independent driven exciter system enhances the reliability of the generator by providing redundancy. In cases where the main rotor experiences issues, the exciter can continue to function independently, ensuring that the generator remains operational. This redundancy is vital for critical applications, such as hospitals and data centers, where uninterrupted power supply is paramount. From a technical perspective, the independent driven exciter system typically consists of a DC or AC generator, a voltage regulator, and control circuitry. The voltage regulator monitors the output voltage of the generator and adjusts the excitation current accordingly. This closed-loop control system ensures that the generator operates within its specified voltage limits, contributing to the overall efficiency of the power generation process. In conclusion, the independent driven exciter system represents a significant advancement in the field of electrical engineering. Its ability to provide independent excitation, rapid response to load changes, and enhanced reliability makes it an essential component in modern synchronous generators. As the demand for efficient and stable power generation continues to grow, understanding and implementing such systems will be crucial for engineers and technicians alike. By embracing innovations like the independent driven exciter system, the electrical engineering community can ensure a more resilient and sustainable energy future.

近年来，电气工程领域取得了显著进展，特别是在各种系统的设计和实施方面，这些系统增强了电机的效率和性能。其中一个创新就是独立驱动励磁系统，它在同步发电机的运行中发挥着至关重要的作用。理解这个系统对于从事发电和配电的工程师和技术人员来说至关重要。独立驱动励磁系统可以定义为一种为同步机器提供励磁的系统，其与主转子独立运行。这意味着励磁机在一个单独的驱动机制上工作，从而允许对励磁过程进行更大的灵活性和控制。该系统的主要目的是维持发电机的电压水平，确保稳定和可靠的电力输出。独立驱动励磁系统的一个关键优势是其能够快速响应负载需求的变化。传统的励磁系统通常依赖于发电机转子的运动，这可能导致电压调节的延迟。然而，使用独立励磁机时，可以几乎瞬时地进行调整，从而改善电力系统的整体稳定性。这一特性在现代电网中尤为重要，因为由于可再生能源的整合，负载需求波动是常见的。此外，独立驱动励磁系统通过提供冗余来增强发电机的可靠性。在主转子出现问题的情况下，励磁机可以继续独立工作，确保发电机保持运行。这种冗余对于医院和数据中心等关键应用至关重要，在这些地方，不间断的电力供应是至关重要的。从技术角度来看，独立驱动励磁系统通常由直流或交流发电机、 voltage 调节器和控制电路组成。电压调节器监测发电机的输出电压，并相应地调整励磁电流。该闭环控制系统确保发电机在其规定的电压限制内运行，从而有助于电力生成过程的整体效率。总之，独立驱动励磁系统代表了电气工程领域的一项重大进展。它提供独立励磁、对负载变化的快速响应和增强的可靠性，使其成为现代同步发电机的重要组成部分。随着对高效和稳定电力生成的需求不断增长，理解和实施这样的系统对于工程师和技术人员来说将至关重要。通过接受像独立驱动励磁系统这样的创新，电气工程界可以确保一个更具韧性和可持续的能源未来。