synchronous compensator

简明释义

同步补偿器同步掂机

英英释义

例句

1.The use of a synchronous compensator in power systems helps to stabilize voltage levels.

在电力系统中使用同步补偿器有助于稳定电压水平。

2.A synchronous compensator can effectively reduce voltage fluctuations during peak demand.

在高峰需求期间，同步补偿器可以有效减少电压波动。

3.By integrating a synchronous compensator, we can enhance the overall efficiency of the electrical network.

通过集成同步补偿器，我们可以提高电网的整体效率。

4.The synchronous compensator plays a crucial role in maintaining system stability.

同步补偿器在维持系统稳定性方面发挥着至关重要的作用。

5.Engineers installed a synchronous compensator to improve the reactive power support in the grid.

工程师安装了一个同步补偿器以改善电网中的无功功率支持。

作文

In the realm of electrical engineering, the term synchronous compensator refers to a device that plays a crucial role in maintaining the stability and efficiency of power systems. A synchronous compensator (同步补偿器) is essentially a type of synchronous machine that is used to regulate voltage levels and improve the overall power factor in electrical networks. This technology has become increasingly important as the demand for reliable and efficient power supply continues to grow, especially with the integration of renewable energy sources into the grid.The primary function of a synchronous compensator is to provide reactive power support. Reactive power is essential for maintaining voltage levels across the electrical network, and without adequate reactive power, voltage instability can occur. This instability can lead to various issues, including equipment damage, reduced efficiency, and even blackouts. By incorporating a synchronous compensator into the power system, engineers can effectively manage reactive power flow, ensuring that voltage levels remain stable under varying load conditions.One of the key advantages of using a synchronous compensator is its ability to dynamically adjust to changes in the power system. Unlike static devices, such as capacitors, which provide fixed reactive power, a synchronous compensator can respond to real-time fluctuations in demand. This dynamic response is achieved through the control of the machine's excitation system, allowing it to either absorb or supply reactive power as needed. As a result, the use of synchronous compensators enhances the overall reliability of the power system, making it more resilient to disturbances.Moreover, synchronous compensators are particularly beneficial in environments where renewable energy sources, such as wind and solar, are prevalent. These sources are often variable and can introduce significant fluctuations in power generation. By integrating synchronous compensators into the grid, operators can mitigate the effects of these fluctuations, thus promoting a smoother and more stable power supply. This capability is essential for achieving a sustainable energy future, as it allows for greater incorporation of renewable resources without compromising grid stability.The installation of a synchronous compensator involves careful consideration of various factors, including the specific requirements of the power system and the expected load profiles. Engineers must conduct detailed studies to determine the optimal size and configuration of the compensator to ensure maximum effectiveness. Additionally, advancements in technology have led to the development of more sophisticated control systems for synchronous compensators, enabling them to operate more efficiently and reliably.In conclusion, the synchronous compensator (同步补偿器) is a vital component of modern power systems, providing essential reactive power support and enhancing voltage stability. Its ability to dynamically respond to changing conditions makes it an invaluable tool for engineers working to maintain the reliability and efficiency of electrical networks. As the global energy landscape continues to evolve, the role of synchronous compensators will undoubtedly become even more significant, paving the way for a more sustainable and resilient energy future.

在电气工程领域，术语同步补偿器指的是一种在维护电力系统的稳定性和效率方面发挥关键作用的设备。同步补偿器（同步补偿器）本质上是一种用于调节电压水平和改善电网整体功率因数的同步机器。随着对可靠高效电力供应需求的不断增长，这项技术变得越来越重要，特别是在可再生能源源融入电网的背景下。同步补偿器的主要功能是提供无功功率支持。无功功率对于维持电力网络中的电压水平至关重要，如果没有足够的无功功率，就会发生电压不稳定。这种不稳定可能导致各种问题，包括设备损坏、效率降低，甚至停电。通过将同步补偿器纳入电力系统，工程师可以有效管理无功功率流动，确保在不同负载条件下电压水平保持稳定。使用同步补偿器的一个关键优势是其能够动态调整以应对电力系统中的变化。与静态设备（如电容器）提供固定的无功功率不同，同步补偿器可以实时响应需求波动。这种动态响应是通过控制机器的励磁系统来实现的，使其能够根据需要吸收或提供无功功率。因此，使用同步补偿器增强了电力系统的整体可靠性，使其更能抵御干扰。此外，同步补偿器在可再生能源（如风能和太阳能）普遍存在的环境中尤其有益。这些资源通常是可变的，可能会引入显著的发电波动。通过将同步补偿器融入电网，操作员可以减轻这些波动的影响，从而促进更平稳和更稳定的电力供应。这种能力对于实现可持续能源未来至关重要，因为它允许在不妨碍电网稳定性的情况下更大程度地整合可再生资源。安装同步补偿器时，需要仔细考虑各种因素，包括电力系统的具体要求和预期负载特征。工程师必须进行详细研究，以确定补偿器的最佳大小和配置，以确保最大效果。此外，技术的进步导致了更复杂的控制系统的开发，使同步补偿器能够更高效、更可靠地运行。总之，同步补偿器（同步补偿器）是现代电力系统的重要组成部分，提供必要的无功功率支持并增强电压稳定性。其动态响应变化条件的能力使其成为工程师维护电力网络可靠性和效率的宝贵工具。随着全球能源格局的不断演变，同步补偿器的角色无疑将变得更加重要，为更可持续和更具韧性的能源未来铺平道路。