synchronizing reactor

简明释义

同步电抗器

英英释义

例句

1.A malfunctioning synchronizing reactor can lead to significant power quality issues.

故障的同步反应器可能导致严重的电力质量问题。

2.The power plant uses a synchronizing reactor to ensure that the generator is in phase with the grid.

发电厂使用同步反应器来确保发电机与电网相位一致。

3.Operators need to monitor the synchronizing reactor closely during peak load times.

在高峰负荷时段，操作员需要密切监控同步反应器。

4.The installation of a new synchronizing reactor improved the stability of the electrical system.

新安装的同步反应器提高了电力系统的稳定性。

5.During the testing phase, engineers adjusted the synchronizing reactor to optimize performance.

在测试阶段，工程师调整了同步反应器以优化性能。

作文

In the realm of electrical engineering, the concept of a synchronizing reactor plays a crucial role in ensuring the stability and efficiency of power systems. A synchronizing reactor is essentially an inductive device that is used to connect two systems operating at different frequencies or phases. Its primary function is to facilitate the synchronization of these systems, allowing for a seamless transfer of power between them. This synchronization is vital in preventing disturbances that could lead to outages or damage to equipment.The importance of a synchronizing reactor can be observed in various applications, particularly in power generation and transmission. For instance, when two power plants are interconnected, they must operate at the same frequency to ensure a stable flow of electricity. If one plant operates at a slightly different frequency, it can create a situation known as 'out of sync,' which may result in power fluctuations. Here, a synchronizing reactor helps adjust the phase angle between the two systems, bringing them into alignment.Furthermore, the synchronizing reactor serves as a protective measure against sudden changes in load or fault conditions. In the event of a fault, such as a short circuit, the reactor can help manage the reactive power flow, thus stabilizing the system and protecting equipment from potential damage. This capability is especially important in modern power grids, where the integration of renewable energy sources can lead to unpredictable variations in power supply and demand.Another significant aspect of synchronizing reactors is their application in high-voltage direct current (HVDC) systems. HVDC technology is increasingly being adopted for long-distance power transmission due to its efficiency and lower losses compared to alternating current (AC) systems. However, connecting AC and DC systems requires careful management of synchronization, which is where a synchronizing reactor becomes indispensable. It ensures that the transition between AC and DC is smooth, minimizing disturbances and enhancing overall system reliability.Moreover, the design and implementation of synchronizing reactors involve several technical considerations. Engineers must take into account factors such as the reactance value, voltage levels, and the specific characteristics of the systems being synchronized. Proper sizing and placement of the reactor are essential to maximize its effectiveness and minimize losses. Additionally, advancements in technology have led to the development of smart reactors that can automatically adjust their parameters in response to changing system conditions, further enhancing their functionality.In conclusion, the synchronizing reactor is a vital component in modern electrical systems, enabling the synchronization of different power sources and enhancing the stability of the grid. Its ability to manage reactive power flow and protect against disturbances makes it an essential tool for engineers and operators in the field of power generation and transmission. As the demand for reliable and efficient power continues to grow, the significance of synchronizing reactors will undoubtedly increase, paving the way for more resilient and sustainable energy systems.

在电气工程领域，synchronizing reactor（同步反应器）的概念在确保电力系统的稳定性和效率方面发挥着至关重要的作用。synchronizing reactor本质上是一种感应设备，用于连接两个操作频率或相位不同的系统。它的主要功能是促进这些系统的同步，从而实现无缝的电力传输。这种同步对于防止可能导致停电或设备损坏的干扰至关重要。synchronizing reactor的重要性可以在各种应用中观察到，特别是在发电和输电方面。例如，当两个电厂互联时，它们必须以相同的频率运行，以确保电力的稳定流动。如果一个电厂的运行频率稍有不同，就会产生“不同步”的情况，这可能导致电力波动。在这里，synchronizing reactor帮助调整两个系统之间的相位角，使它们对齐。此外，synchronizing reactor还作为针对负载突然变化或故障条件的保护措施。在发生故障（如短路）时，反应器可以帮助管理无功功率流，从而稳定系统并保护设备免受潜在损坏。这种能力在现代电网中尤其重要，因为可再生能源的整合可能导致电力供应和需求的不可预测变化。synchronizing reactors的另一个重要方面是它们在高压直流（HVDC）系统中的应用。由于其效率和与交流（AC）系统相比的较低损耗，HVDC技术正越来越多地被用于长距离电力传输。然而，连接交流和直流系统需要仔细管理同步，这就是synchronizing reactor变得不可或缺的地方。它确保交流和直流之间的过渡平稳，最小化干扰并增强整体系统的可靠性。此外，synchronizing reactors的设计和实施涉及多个技术考虑因素。工程师必须考虑反应器的感抗值、电压水平以及被同步系统的具体特性。适当的尺寸和放置反应器对于最大化其有效性和最小化损耗至关重要。此外，技术的进步促使智能反应器的发展，这些反应器能够根据不断变化的系统条件自动调整其参数，进一步增强其功能。总之，synchronizing reactor是现代电力系统中的一个重要组成部分，使不同的电源能够同步，并增强电网的稳定性。它管理无功功率流和保护干扰的能力使其成为发电和输电领域工程师和操作员的重要工具。随着对可靠和高效电力的需求持续增长，synchronizing reactors的重要性无疑会增加，为更具弹性和可持续的能源系统铺平道路。