synchronizing generator

简明释义

同步发电机

英英释义

例句

1.The synchronizing generator is crucial for maintaining voltage stability in the power system.

在电力系统中，同步发电机对于维持电压稳定至关重要。

2.We used a synchronizing generator to provide backup power during the outage.

我们使用同步发电机在停电期间提供备用电源。

3.The engineer explained how to connect the synchronizing generator to the grid safely.

工程师解释了如何安全地将同步发电机连接到电网。

4.During the testing phase, we monitored the synchronizing generator for any fluctuations in output.

在测试阶段，我们监测了同步发电机的输出是否有波动。

5.Operators must ensure that the synchronizing generator is properly aligned before starting it.

操作员必须确保在启动之前同步发电机正确对齐。

作文

In the realm of electrical engineering, the concept of a synchronizing generator plays a crucial role in the generation and distribution of electricity. A synchronizing generator is a device that converts mechanical energy into electrical energy while maintaining synchronization with the grid frequency. This synchronization is essential because it ensures that the power generated can be seamlessly integrated into the existing electrical grid, thus providing a stable and reliable supply of electricity to consumers.The process of synchronizing a generator involves matching its frequency, phase angle, and voltage with those of the grid. If these parameters are not aligned, it can lead to severe issues such as voltage fluctuations, equipment damage, or even blackouts. Therefore, understanding how to properly synchronize a generator is vital for engineers and operators in power plants.One of the primary applications of a synchronizing generator is in power plants where multiple generators operate in parallel. In such scenarios, it is necessary to ensure that all generators are synchronized before they can share the load. This is particularly important in large power systems where any imbalance can cause instability. Engineers use various methods to achieve synchronization, including automatic synchronization systems that monitor the generator's output and adjust it accordingly to match the grid.Moreover, the importance of synchronizing generators extends beyond just power plants. They are also used in renewable energy sources, such as wind and solar farms, where the generated power must be synchronized with the grid to ensure efficient energy distribution. For instance, wind turbines equipped with synchronizing generators can produce variable output depending on wind conditions, and thus must be synchronized carefully to maintain grid stability.The technology behind synchronizing generators has advanced significantly over the years. Modern generators are often equipped with sophisticated control systems that facilitate real-time monitoring and adjustment. These systems can automatically detect discrepancies in frequency and phase, allowing for quick corrections to maintain synchronization. This automation not only enhances the efficiency of power generation but also reduces the risk of human error during operation.In addition to their technical aspects, synchronizing generators also have economic implications. By ensuring that power generation is synchronized with demand, utilities can optimize their operations and reduce costs associated with energy production. This is particularly relevant in today's energy market, where the integration of renewable resources and the need for flexible power systems are becoming increasingly important.In conclusion, the synchronizing generator is a fundamental component in the field of electrical engineering, serving as a bridge between mechanical energy and electrical energy while ensuring stability in the power grid. Its significance cannot be overstated, as it not only facilitates the efficient generation of electricity but also plays a pivotal role in integrating diverse energy sources into a unified system. As technology continues to evolve, the role of synchronizing generators will undoubtedly expand, paving the way for a more sustainable and reliable energy future.

在电气工程领域，synchronizing generator的概念在电力的生成和分配中发挥着至关重要的作用。synchronizing generator是一种将机械能转化为电能的设备，同时保持与电网频率的同步。这种同步是必不可少的，因为它确保所产生的电力可以无缝地集成到现有的电网中，从而为消费者提供稳定可靠的电力供应。同步发电机的过程涉及将其频率、相位角和电压与电网的参数匹配。如果这些参数不一致，可能会导致严重的问题，例如电压波动、设备损坏甚至停电。因此，了解如何正确同步发电机对于电厂的工程师和操作员至关重要。synchronizing generator的主要应用之一是在多个发电机并联运行的电厂。在这种情况下，必须确保所有发电机在共享负载之前都已同步。这在大型电力系统中尤其重要，因为任何不平衡都可能导致系统不稳定。工程师使用各种方法来实现同步，包括自动同步系统，这些系统监控发电机的输出并相应调整，以匹配电网。此外，synchronizing generators的重要性不仅限于电厂。它们还用于可再生能源源，例如风能和太阳能发电场，其中生成的电力必须与电网同步，以确保有效的能源分配。例如，配备有synchronizing generators的风力涡轮机可以根据风况产生可变输出，因此必须仔细同步以维持电网的稳定。随着技术的发展，synchronizing generators的技术也有了显著进步。现代发电机通常配备复杂的控制系统，便于实时监测和调整。这些系统可以自动检测频率和相位的差异，从而快速进行修正以保持同步。这种自动化不仅提高了发电效率，还减少了操作过程中的人为错误风险。除了技术方面，synchronizing generators还具有经济意义。通过确保电力生成与需求同步，公用事业公司可以优化其运营，降低与能源生产相关的成本。这在当今能源市场中尤为相关，因为可再生资源的整合和灵活电力系统的需求变得越来越重要。总之，synchronizing generator是电气工程领域的一个基本组成部分，作为机械能与电能之间的桥梁，同时确保电网的稳定。它的重要性不容忽视，因为它不仅促进了电力的高效生成，还在将多样化的能源源整合到统一系统中发挥着关键作用。随着技术的不断发展，synchronizing generators的角色无疑将扩大，为更可持续和可靠的能源未来铺平道路。