separately excite generator

简明释义

他励发电机

英英释义

例句

1.During maintenance, technicians will separately excite generator to diagnose potential issues.

在维护期间，技术人员将单独激励发电机以诊断潜在问题。

2.In our experiments, we will separately excite generator and measure the output voltage.

在我们的实验中，我们将单独激励发电机并测量输出电压。

3.Operators must separately excite generator to test its response under different load conditions.

操作员必须单独激励发电机以测试其在不同负载条件下的响应。

4.In the testing phase, we need to separately excite generator to ensure each component functions correctly.

在测试阶段，我们需要单独激励发电机以确保每个组件正常工作。

5.To optimize performance, it is advisable to separately excite generator before connecting it to the grid.

为了优化性能，建议在将其连接到电网之前单独激励发电机。

作文

The term separately excite generator refers to a specific type of electrical generator that is powered by an external source of excitation rather than relying on residual magnetism or self-excitation. This method of excitation is crucial in many industrial applications where stable voltage and reliable performance are essential. In this essay, I will explore the concept of separately excite generator, its working principles, advantages, and applications in various fields.To begin with, a separately excite generator operates by supplying direct current (DC) to the field windings of the generator from an external source, such as a battery or a dedicated exciter. This external supply allows for precise control over the magnetic field strength, which in turn influences the output voltage of the generator. Unlike self-excited generators, which may struggle to maintain a steady output during varying load conditions, separately excite generators can quickly adapt to changes, making them highly efficient and reliable.One significant advantage of using a separately excite generator is the ability to achieve a stable voltage output. In many applications, especially in power generation and distribution systems, maintaining a consistent voltage level is critical for the safety and efficiency of electrical equipment. By allowing for careful adjustment of the excitation current, operators can ensure that the generator maintains the desired voltage even as load conditions fluctuate.Furthermore, separately excite generators are often used in conjunction with automatic voltage regulators (AVRs). These devices monitor the output voltage and automatically adjust the excitation current to keep the voltage within specified limits. This combination of technology enhances the performance of the generator and reduces the risk of damage to connected equipment due to voltage spikes or drops.In addition to their use in power generation, separately excite generators find applications in various industries, including manufacturing, telecommunications, and transportation. For example, in manufacturing plants, these generators can provide backup power during outages, ensuring that production processes remain uninterrupted. In telecommunications, they can serve as reliable power sources for communication towers, where consistent energy supply is vital for maintaining connectivity.Moreover, separately excite generators are also employed in renewable energy systems, particularly in wind and hydroelectric power plants. In these settings, the ability to control the excitation independently allows for better integration with grid systems and improved overall efficiency of energy conversion.In conclusion, the separately excite generator is a versatile and essential component in modern electrical systems. Its ability to provide stable voltage output and adapt to changing load conditions makes it invaluable across various industries. As technology continues to advance, the importance of efficient and reliable power generation will only grow, further solidifying the role of separately excite generators in our increasingly electrified world. Understanding this concept is crucial for anyone involved in electrical engineering or related fields, as it highlights the importance of precise control in generating electrical power effectively. Overall, the separately excite generator exemplifies how advancements in technology can lead to more efficient and reliable electrical systems, ultimately contributing to a more sustainable future.

短语separately excite generator指的是一种特定类型的电气发电机，它通过外部激励源供电，而不是依赖残余磁性或自我激励。这种激励方法在许多工业应用中至关重要，因为稳定的电压和可靠的性能是必不可少的。在这篇文章中，我将探讨separately excite generator的概念、工作原理、优点以及它在各个领域的应用。首先，separately excite generator通过从外部源（如电池或专用励磁机）向发电机的场绕组提供直流电（DC）来运作。这种外部供电允许对磁场强度进行精确控制，进而影响发电机的输出电压。与自激励发电机不同，自激励发电机在负载条件变化时可能难以保持稳定的输出，而separately excite generators可以迅速适应变化，使其高度高效且可靠。使用separately excite generator的一个显著优势是能够实现稳定的电压输出。在许多应用中，特别是在电力生成和配电系统中，维持一致的电压水平对电气设备的安全性和效率至关重要。通过允许对激励电流进行仔细调整，操作员可以确保发电机在负载条件波动时保持所需的电压。此外，separately excite generators通常与自动电压调节器（AVR）结合使用。这些设备监测输出电压，并自动调整激励电流以保持电压在指定范围内。这种技术组合增强了发电机的性能，并降低了由于电压尖峰或下降而对连接设备造成损害的风险。除了用于发电外，separately excite generators还广泛应用于制造、电信和交通等多个行业。例如，在制造工厂中，这些发电机可以在停电期间提供备用电源，确保生产过程不受干扰。在电信领域，它们可以为通信塔提供可靠的电源，在这些地方，持续的能源供应对于维持连接至关重要。此外，separately excite generators还被用于可再生能源系统，特别是在风能和水电站中。在这些环境中，独立控制激励的能力使其能够更好地与电网系统集成，并提高能量转换的整体效率。总之，separately excite generator是现代电气系统中一种多功能且至关重要的组件。它提供稳定的电压输出并能适应变化的负载条件，使其在各个行业中不可或缺。随着技术的不断进步，高效可靠的电力生成的重要性只会增加，进一步巩固separately excite generators在我们日益电气化的世界中的角色。理解这一概念对任何参与电气工程或相关领域的人来说都是至关重要的，因为它突显了在有效生成电力时精确控制的重要性。总体而言，separately excite generator体现了技术进步如何导致更高效、更可靠的电气系统，最终为更可持续的未来做出贡献。