auxiliary exciting winding

简明释义

辅励磁绕组

英英释义

例句

1.The engineer explained that the auxiliary exciting winding is crucial for maintaining the motor's efficiency.

工程师解释说，辅助励磁绕组对维持电机的效率至关重要。

2.In our latest project, we implemented an auxiliary exciting winding to improve the performance of the generator.

在我们的最新项目中，我们实施了一个辅助励磁绕组以提高发电机的性能。

3.An effective auxiliary exciting winding design can significantly reduce energy losses.

有效的辅助励磁绕组设计可以显著减少能量损失。

4.The auxiliary exciting winding helps stabilize the voltage output during peak loads.

在高峰负荷期间，辅助励磁绕组有助于稳定电压输出。

5.During the workshop, we learned about the role of the auxiliary exciting winding in synchronous machines.

在研讨会上，我们了解了辅助励磁绕组在同步机器中的作用。

作文

In the world of engineering and design, the term auxiliary exciting winding refers to additional coils or windings that are used to enhance the performance of electrical machines, particularly in generators and motors. These auxiliary windings play a crucial role in improving the efficiency and functionality of the primary winding. The concept may seem complex at first, but it can be broken down into simpler components for better understanding. To begin with, let’s explore what is meant by the term auxiliary exciting winding. The word 'auxiliary' suggests something that provides support or assistance. In the context of electrical systems, auxiliary components are those that supplement the main parts to ensure optimal operation. The 'exciting' aspect pertains to the creation of a magnetic field necessary for the operation of machines like generators. Finally, 'winding' refers to the coils of wire that carry electric current. Therefore, when combined, auxiliary exciting winding denotes additional coils that help generate a magnetic field, thereby enhancing the machine's overall performance.The significance of auxiliary exciting winding can be observed in various applications. For instance, in synchronous generators, these auxiliary windings are essential for maintaining stability and ensuring that the generator can operate effectively under varying loads. They provide the necessary excitation current that helps to regulate voltage levels, allowing the generator to adapt to changes in demand seamlessly.Moreover, the implementation of auxiliary exciting winding can lead to improved efficiency in energy conversion processes. By optimizing the magnetic field, these windings reduce losses associated with heat generation and improve the overall output of the machine. This is particularly important in industries where energy efficiency is paramount, such as renewable energy sectors where maximizing output while minimizing resource consumption is a critical goal.Furthermore, the use of auxiliary exciting winding can also enhance the reliability of electrical systems. By providing additional support during peak load conditions, these windings help to prevent failures that could result from excessive strain on the primary winding. This not only extends the lifespan of the equipment but also ensures uninterrupted service, which is vital in industries that rely heavily on continuous power supply.In conclusion, the term auxiliary exciting winding encompasses a fundamental concept in electrical engineering that underscores the importance of supplementary systems in enhancing the performance and reliability of electrical machines. Understanding how these auxiliary components function allows engineers and designers to create more efficient and resilient systems. As technology continues to evolve, the role of auxiliary exciting winding will likely become even more critical in the pursuit of advanced electrical solutions that meet the growing demands of modern society.

在工程和设计的世界中，术语辅助激励绕组指的是用于增强电气机器性能的额外线圈或绕组，特别是在发电机和电动机中。这些辅助绕组在提高主绕组的效率和功能方面发挥着至关重要的作用。这个概念乍一看可能显得复杂，但可以将其拆分为更简单的组成部分以便更好地理解。首先，让我们探讨一下术语辅助激励绕组的含义。“辅助”一词暗示提供支持或帮助的东西。在电气系统的背景下，辅助组件是那些补充主要部分以确保最佳操作的组件。“激励”方面涉及到产生电机运行所需的磁场。最后，“绕组”指的是携带电流的线圈。因此，结合起来，辅助激励绕组表示帮助生成磁场的附加线圈，从而增强机器的整体性能。辅助激励绕组的重要性可以在各种应用中观察到。例如，在同步发电机中，这些辅助绕组对于维持稳定性并确保发电机在不同负载下有效运行至关重要。它们提供必要的激励电流，帮助调节电压水平，使发电机能够无缝适应需求的变化。此外，实施辅助激励绕组还可以提高能量转换过程的效率。通过优化磁场，这些绕组减少了与热量产生相关的损失，并改善了机器的整体输出。这在能源效率至关重要的行业中尤为重要，例如可再生能源部门，在这些行业中，最大化输出同时最小化资源消耗是一个关键目标。此外，使用辅助激励绕组还可以增强电气系统的可靠性。通过在峰值负载条件下提供额外支持，这些绕组有助于防止由于对主绕组施加过大压力而导致的故障。这不仅延长了设备的使用寿命，还确保了不间断的服务，这在依赖于连续电力供应的行业中至关重要。总之，术语辅助激励绕组涵盖了电气工程中的基本概念，强调了辅助系统在增强电气机器性能和可靠性方面的重要性。理解这些辅助组件的功能使工程师和设计师能够创建更高效和更具弹性的系统。随着技术的不断发展，辅助激励绕组的作用在追求满足现代社会日益增长的需求的先进电气解决方案中可能变得更加关键。