synchroscope
简明释义
英[ˈsɪŋkrəˌskəʊp]美[ˈsɪŋkrəˌskoʊp]
n. 同步检定器;[电子] 同步示波器
英英释义
单词用法
手动同步仪 | |
数字同步仪 | |
相位角同步仪 | |
连接同步仪 | |
调整同步仪 | |
用同步仪监控 |
同义词
| 同步器 | The synchronizer ensures that the generators are operating in sync. | 同步器确保发电机的运行保持同步。 | |
| 相位计 | A phase meter is used to measure the phase difference between two signals. | 相位计用于测量两个信号之间的相位差。 |
反义词
例句
1.During the power plant's operation, the synchroscope indicated that the frequency was stable.
在发电厂的运行过程中,同步表指示频率稳定。
2.The engineer monitored the synchroscope readings to avoid any phase mismatch.
工程师监控同步表读数以避免相位不匹配。
3.In marine applications, a synchroscope helps to align ship generators effectively.
在海洋应用中,同步表帮助有效对齐船舶发电机。
4.The technician used a synchroscope to ensure the generators were in phase before connecting them.
技术员使用同步表确保发电机在连接之前处于同相。
5.An accurate synchroscope is essential for synchronizing multiple power sources.
准确的同步表对于同步多个电源至关重要。
作文
In the world of electrical engineering, synchronization is a crucial concept that ensures the smooth operation of power systems. One of the key instruments used to achieve this synchronization is the synchroscope. A synchroscope is an essential device that helps operators determine the phase relationship between two alternating current (AC) sources. This instrument is vital in situations where multiple generators are connected to a power grid, as it allows for the precise timing of their connection to avoid damage and maintain stability.The primary function of a synchroscope is to indicate whether the incoming generator is running faster or slower than the grid frequency. When two AC sources are out of phase, connecting them can cause severe disturbances, including equipment damage and power outages. Therefore, the synchroscope plays a pivotal role in monitoring these conditions. It typically has a dial with a needle that moves in relation to the phase difference between the two sources. If the needle points to the right, it indicates that the incoming generator is ahead in phase, while pointing to the left means it is lagging.Understanding how to read a synchroscope is fundamental for engineers and technicians working in power plants. The operator must carefully observe the needle's position and adjust the speed of the generator accordingly before connecting it to the grid. This process is known as synchronizing, and it requires skill and precision. In addition to visual indicators, modern synchroscopes may also provide digital readouts and alarms to alert operators to any discrepancies that could lead to synchronization issues.The importance of a synchroscope cannot be overstated in the context of renewable energy sources, such as wind and solar power. As these energy sources become more prevalent, the need for effective synchronization becomes even more critical. Wind turbines and solar panels often generate electricity at varying frequencies due to changes in wind speed or sunlight intensity. A synchroscope enables operators to integrate these variable sources into the grid safely and efficiently, ensuring a stable power supply for consumers.Moreover, advancements in technology have led to the development of smart synchroscopes that incorporate advanced algorithms and communication capabilities. These smart devices can communicate with other grid components, providing real-time data analysis and predictive maintenance capabilities. This innovation not only enhances the reliability of power systems but also contributes to the overall efficiency of energy distribution.In conclusion, the synchroscope is a vital tool in the field of electrical engineering, particularly in the management of power generation and distribution. Its ability to accurately measure phase differences between AC sources ensures that multiple generators can be synchronized effectively, thereby maintaining system stability. As the energy landscape continues to evolve with the integration of renewable resources, the role of the synchroscope will remain indispensable. Engineers and technicians must continue to develop their understanding of this instrument to ensure the reliable operation of modern power systems, ultimately leading to a more sustainable energy future.
在电气工程的世界中,同步是一个至关重要的概念,它确保了电力系统的平稳运行。用于实现这种同步的关键仪器之一是synchroscope(同步仪)。synchroscope是一个基本设备,帮助操作员确定两个交流电源之间的相位关系。这个仪器在多个发电机连接到电网的情况下至关重要,因为它允许精确的连接时机,以避免损坏并维持稳定。synchroscope的主要功能是指示即将接入的发电机是比电网频率快还是慢。当两个交流电源不同步时,连接它们可能会导致严重的干扰,包括设备损坏和停电。因此,synchroscope在监测这些条件中发挥着关键作用。它通常有一个表盘,指针根据两个电源之间的相位差移动。如果指针指向右侧,则表示即将接入的发电机在相位上领先,而指向左侧则表示它滞后。了解如何读取synchroscope对于在发电厂工作的工程师和技术人员来说是至关重要的。操作员必须仔细观察指针的位置,并相应地调整发电机的速度,然后再将其连接到电网。这个过程称为同步,需要技巧和精确度。除了视觉指示器,现代的synchroscopes还可以提供数字读数和警报,以提醒操作员任何可能导致同步问题的差异。在可再生能源(如风能和太阳能)的背景下,synchroscope的重要性不可低估。随着这些能源来源变得越来越普遍,有效同步的需求变得更加关键。风力涡轮机和太阳能电池板通常由于风速或阳光强度的变化而以不同的频率发电。synchroscope使操作员能够安全高效地将这些可变源整合到电网中,确保消费者的稳定电力供应。此外,技术的进步导致了智能synchroscopes的发展,这些设备结合了先进的算法和通信能力。这些智能设备可以与其他电网组件进行通信,提供实时数据分析和预测维护能力。这一创新不仅提高了电力系统的可靠性,还促进了能源分配的整体效率。总之,synchroscope是电气工程领域中一个至关重要的工具,特别是在电力生成和分配的管理中。它准确测量交流电源之间的相位差的能力确保多个发电机能够有效同步,从而维护系统的稳定性。随着能源格局的不断发展,尤其是可再生资源的整合,synchroscope的作用仍将不可或缺。工程师和技术人员必须继续深化对这一仪器的理解,以确保现代电力系统的可靠运行,最终实现更可持续的能源未来。
