condenser excitation

简明释义

电容器励磁

英英释义

例句

1.Understanding condenser excitation is crucial for maintaining system stability.

理解励磁电容器对维持系统稳定性至关重要。

2.During the maintenance check, we observed that the condenser excitation was not functioning properly.

在维护检查中，我们观察到励磁电容器的功能不正常。

3.The technician adjusted the settings for condenser excitation to improve efficiency.

技术员调整了励磁电容器的设置以提高效率。

4.We conducted experiments to analyze the effects of condenser excitation on voltage regulation.

我们进行了实验，以分析励磁电容器对电压调节的影响。

5.The engineer explained the process of condenser excitation to ensure optimal performance in the power plant.

工程师解释了励磁电容器的过程，以确保发电厂的最佳性能。

作文

In the field of electrical engineering, understanding the concept of condenser excitation is crucial for the effective operation of various electrical machines. Condenser excitation refers to the process of supplying reactive power to a system, particularly in synchronous machines. This process is essential for maintaining voltage levels and ensuring the stability of the power system. Without adequate condenser excitation, generators may struggle to maintain their output voltage, leading to inefficiencies and potential failures in the electrical grid.The principle behind condenser excitation involves the use of capacitors to provide the necessary reactive power. Capacitors can store electrical energy and release it when required, thus helping to regulate voltage levels. In synchronous generators, the rotor's magnetic field is excited by either a DC source or through condenser excitation. This excitation creates an electromagnetic force that enables the generator to produce electricity.One of the significant advantages of using condenser excitation is its ability to improve the overall power factor of the system. A better power factor means that the electrical system operates more efficiently, reducing losses and improving the lifespan of equipment. In modern power systems, where renewable energy sources are increasingly integrated, maintaining a good power factor through condenser excitation becomes even more critical. For instance, wind and solar power plants often require additional reactive power support to stabilize the grid, making condenser excitation an essential component of their operation.Moreover, condenser excitation plays a vital role in fault conditions. During disturbances, such as short circuits, the system may experience significant voltage drops. By providing reactive power through condenser excitation, the system can quickly recover from these disturbances, ensuring a stable supply of electricity. This capability is particularly important in maintaining the reliability of power systems, where outages can have severe economic and social consequences.In summary, condenser excitation is a fundamental concept in electrical engineering that supports the efficient operation of synchronous machines and enhances the stability of power systems. It helps maintain voltage levels, improves power factors, and provides crucial support during fault conditions. As the demand for reliable and efficient electrical systems continues to grow, the importance of understanding and implementing condenser excitation will only increase. Engineers and technicians must continue to study and apply this concept to ensure the resilience and efficiency of modern electrical grids.

在电气工程领域，理解电容器励磁的概念对于各种电气机器的有效运行至关重要。电容器励磁指的是向系统提供无功功率的过程，特别是在同步机器中。这个过程对维持电压水平和确保电力系统的稳定性至关重要。如果没有足够的电容器励磁，发电机可能会难以维持其输出电压，从而导致电网的低效和潜在故障。电容器励磁的原理涉及使用电容器来提供所需的无功功率。电容器可以储存电能并在需要时释放，因此有助于调节电压水平。在同步发电机中，转子的磁场通过直流源或通过电容器励磁激励。这种励磁产生了电磁力，使发电机能够产生电力。使用电容器励磁的一个显著优点是它能够改善系统的整体功率因数。更好的功率因数意味着电气系统更高效地运行，减少损耗并延长设备的使用寿命。在现代电力系统中，随着可再生能源的越来越多地集成，通过电容器励磁维持良好的功率因数变得更加重要。例如，风能和太阳能发电厂通常需要额外的无功功率支持来稳定电网，使得电容器励磁成为其运行的重要组成部分。此外，电容器励磁在故障条件下也发挥着至关重要的作用。在短路等干扰期间，系统可能会经历显著的电压下降。通过提供无功功率，电容器励磁能够迅速恢复这些干扰，确保电力的稳定供应。这种能力在维护电力系统的可靠性方面尤为重要，因为停电可能会带来严重的经济和社会后果。总之，电容器励磁是电气工程中的一个基本概念，它支持同步机器的有效运行，并增强电力系统的稳定性。它有助于维持电压水平、改善功率因数，并在故障条件下提供关键支持。随着对可靠和高效电气系统的需求不断增长，理解和实施电容器励磁的重要性只会增加。工程师和技术人员必须继续研究和应用这一概念，以确保现代电网的韧性和效率。