synchronous condenser

简明释义

同步调相机

英英释义

例句

1.The power plant installed a synchronous condenser to improve voltage stability.

发电厂安装了一个同步调相机以提高电压稳定性。

2.The installation of the synchronous condenser was completed ahead of schedule.

该同步调相机的安装提前完成。

3.By using a synchronous condenser, we can reduce line losses significantly.

通过使用同步调相机，我们可以显著减少线路损耗。

4.The synchronous condenser helps in reactive power management in the grid.

在电网中，同步调相机有助于无功功率管理。

5.We need to analyze the performance of the synchronous condenser during peak load conditions.

我们需要分析在高峰负荷条件下同步调相机的性能。

作文

In the realm of electrical engineering, the term synchronous condenser refers to a device that plays a critical role in maintaining the stability and efficiency of power systems. A synchronous condenser is essentially a synchronous motor that operates without a mechanical load. Its primary function is to provide reactive power support to the grid, helping to regulate voltage levels and enhance the overall reliability of electricity supply. This technology is particularly important in modern power systems, where the integration of renewable energy sources has introduced new challenges in maintaining system stability.The operation of a synchronous condenser is based on the principles of electromagnetism. When connected to the power grid, it can either absorb or generate reactive power depending on the system's needs. By adjusting the excitation level of the rotor, operators can control the amount of reactive power produced or consumed. This capability makes synchronous condensers invaluable in situations where voltage fluctuations occur, such as during sudden changes in load or generation.One of the significant advantages of using a synchronous condenser is its ability to improve the power factor of the electrical system. A poor power factor can lead to increased losses in the transmission and distribution networks, which can ultimately result in higher operational costs for utility companies. By providing reactive power, synchronous condensers help to correct the power factor, allowing for more efficient use of the electrical infrastructure.Moreover, synchronous condensers contribute to the overall stability of the power system. They can dampen oscillations and mitigate voltage instability, which are critical for maintaining a reliable electricity supply. In areas with high penetration of renewable energy sources like wind and solar, where generation can be intermittent, the role of synchronous condensers becomes even more crucial. They act as buffer systems that can quickly respond to changes in the grid, ensuring that voltage levels remain within acceptable limits.Despite their numerous benefits, the deployment of synchronous condensers also comes with some challenges. The initial investment for installation can be significant, and there are ongoing maintenance costs associated with operating these devices. Additionally, the technical expertise required to manage and optimize their performance is essential for maximizing their effectiveness in the power system.In conclusion, the synchronous condenser is an essential component in modern electrical engineering, particularly in the context of evolving power systems. Its ability to provide reactive power support, improve power factor, and enhance system stability makes it a valuable asset for utilities and grid operators. As the demand for reliable and efficient electricity continues to grow, the importance of technologies like synchronous condensers will only increase, paving the way for a more resilient and sustainable energy future.

在电气工程领域，术语synchronous condenser指的是一种在维持电力系统的稳定性和效率方面发挥关键作用的设备。synchronous condenser本质上是一种不带机械负载的同步电动机。它的主要功能是为电网提供无功功率支持，帮助调节电压水平并增强电力供应的整体可靠性。这项技术在现代电力系统中尤为重要，因为可再生能源的整合带来了维护系统稳定性的新挑战。synchronous condenser的操作基于电磁学原理。当连接到电网时，它可以根据系统的需要吸收或产生无功功率。通过调整转子的励磁水平，操作人员可以控制产生或消耗的无功功率的数量。这种能力使得synchronous condensers在负载或发电突然变化的情况下显得尤为宝贵。使用synchronous condenser的一个重大优势是其改善电力系统功率因数的能力。较差的功率因数会导致传输和配电网络中的损失增加，这最终可能导致公用事业公司的运营成本上升。通过提供无功功率，synchronous condensers有助于校正功率因数，从而更有效地利用电力基础设施。此外，synchronous condensers还对电力系统的整体稳定性有所贡献。它们能够减缓振荡并缓解电压不稳定，这对于维持可靠的电力供应至关重要。在风能和太阳能等可再生能源渗透率高的地区，发电可能会间歇性，synchronous condensers的作用变得更加关键。它们充当缓冲系统，可以快速响应电网中的变化，确保电压水平保持在可接受的范围内。尽管有许多好处，但部署synchronous condensers也面临一些挑战。安装的初始投资可能相当可观，并且与操作这些设备相关的持续维护成本也不可忽视。此外，管理和优化其性能所需的技术专长对于最大化其在电力系统中的有效性至关重要。总之，synchronous condenser是现代电气工程中的一个重要组成部分，特别是在不断发展的电力系统背景下。它提供无功功率支持、改善功率因数和增强系统稳定性的能力，使其成为公用事业公司和电网运营商的宝贵资产。随着对可靠和高效电力需求的持续增长，像synchronous condensers这样的技术的重要性只会增加，为更具韧性和可持续的能源未来铺平道路。