shunt wound generator

简明释义

并励发电机

英英释义

例句

1.In our project, we decided to use a shunt wound generator 分流绕组发电机 for its efficiency in voltage regulation.

在我们的项目中，我们决定使用<顺流绕组发电机>，因为它在电压调节方面的高效性。

2.The technician explained how the shunt wound generator 分流绕组发电机 operates under varying load conditions.

技术员解释了<顺流绕组发电机>在不同负载条件下的工作原理。

3.During the workshop, we learned how to troubleshoot a shunt wound generator 分流绕组发电机 when it fails to start.

在研讨会上，我们学习了如何排除<顺流绕组发电机>无法启动时的故障。

4.One of the advantages of a shunt wound generator 分流绕组发电机 is its ability to maintain a constant voltage output.

<顺流绕组发电机>的一个优点是能够保持恒定的电压输出。

5.The shunt wound generator 分流绕组发电机 provides a stable output, making it ideal for powering sensitive equipment.

<顺流绕组发电机>提供稳定的输出，非常适合为敏感设备供电。

作文

The concept of a shunt wound generator is integral to the field of electrical engineering, particularly in the generation of electrical power. A shunt wound generator is a type of DC generator where the field winding is connected in parallel with the armature winding. This configuration allows for a more stable output voltage, making it ideal for various applications. In essence, the shunt wound generator is designed to maintain a consistent voltage level despite changes in load conditions. The operation of a shunt wound generator relies on the principles of electromagnetism. When the armature rotates within a magnetic field, it induces an electromotive force (EMF), which generates electricity. The field winding, being in parallel, receives a portion of this generated current, which in turn strengthens the magnetic field and enhances the generator's output. This feedback loop is crucial for maintaining voltage stability. One of the primary advantages of using a shunt wound generator is its ability to handle varying loads without significant fluctuations in voltage. This characteristic makes it suitable for applications where a stable power supply is necessary, such as in battery charging systems or in small power plants. Additionally, the shunt wound generator can be easily controlled by adjusting the field current, allowing for flexibility in operation. However, there are also limitations associated with shunt wound generators. For instance, they may not perform well under very low load conditions, as the output voltage can drop significantly. Moreover, while they are efficient under normal operating conditions, their efficiency can decrease at higher loads due to increased losses in the armature. In conclusion, the shunt wound generator plays a vital role in the generation of electrical power. Its design allows for stable voltage output and adaptability to changing load conditions, making it a valuable component in various electrical systems. Understanding the workings and applications of the shunt wound generator is essential for anyone involved in electrical engineering or power generation. As technology advances, the principles behind the shunt wound generator continue to be relevant, paving the way for innovations in energy production and management.

“并联绕组发电机”的概念在电气工程领域中至关重要，特别是在电力生成方面。shunt wound generator是一种直流发电机，其励磁绕组与电枢绕组并联连接。这种配置允许更稳定的输出电压，使其适用于各种应用。简而言之，shunt wound generator旨在保持一致的电压水平，尽管负载条件发生变化。shunt wound generator的操作依赖于电磁学原理。当电枢在磁场中旋转时，会感应出电动势（EMF），从而产生电力。励磁绕组由于并联连接，接收部分生成的电流，这反过来又增强了磁场并提高了发电机的输出。这种反馈循环对于维持电压稳定至关重要。使用shunt wound generator的主要优点之一是它能够在负载变化时处理不同的负载，而不会导致电压显著波动。这一特性使其适合于需要稳定电源的应用，例如电池充电系统或小型发电厂。此外，shunt wound generator可以通过调整励磁电流轻松控制，从而实现操作上的灵活性。然而，shunt wound generators也存在一些局限性。例如，在负载非常低的情况下，它们可能表现不佳，因为输出电压可能会显著下降。此外，虽然在正常操作条件下它们效率较高，但在高负载下，由于电枢损耗增加，其效率可能会降低。总之，shunt wound generator在电力生成中发挥着重要作用。其设计允许稳定的电压输出，并能适应变化的负载条件，使其成为各种电气系统中的宝贵组件。理解shunt wound generator的工作原理和应用对于任何参与电气工程或电力生成的人来说都是至关重要的。随着技术的进步，shunt wound generator背后的原理仍然相关，为能源生产和管理的创新铺平了道路。