shunt field
简明释义
并励场
英英释义
例句
1.By varying the shunt field, we can control the output voltage of the generator.
通过改变分流场,我们可以控制发电机的输出电压。
2.Adjusting the shunt field can lead to significant changes in the machine's output.
调整分流场可以导致机器输出的显著变化。
3.In this circuit, the shunt field helps regulate the current flow.
在这个电路中,分流场有助于调节电流流动。
4.The engineer decided to adjust the shunt field to improve the motor's efficiency.
工程师决定调整分流场以提高电机的效率。
5.The technician explained how the shunt field affects the overall performance of the system.
技术员解释了分流场如何影响系统的整体性能。
作文
The concept of a shunt field is essential in the study of electrical engineering and motor design. A shunt field refers to a specific type of magnetic field created by a winding of wire that is placed parallel to the main field winding in a machine, such as a generator or motor. This configuration allows for the control of the magnetic field strength, which in turn affects the performance and efficiency of the machine. Understanding how a shunt field operates can provide insights into the broader principles of electromagnetism and its applications in various technologies.In practical terms, a shunt field is often used to regulate the voltage output of generators. By adjusting the current flowing through the shunt field, engineers can control the intensity of the magnetic field, which directly influences the voltage produced. This ability to modulate the output is crucial for applications where stable voltage is necessary, such as in power generation for homes and industries.Moreover, the use of a shunt field can enhance the overall efficiency of electrical machines. When designed effectively, machines with a shunt field can operate at lower energy losses, leading to reduced operational costs and improved sustainability. As the world moves towards greener technologies, understanding and implementing shunt fields in design processes becomes increasingly important.In addition to their role in voltage regulation, shunt fields also play a significant part in the performance characteristics of motors. For instance, in a shunt-wound DC motor, the shunt field helps maintain a constant speed under varying load conditions. This stability is crucial for many industrial applications where precise control of speed and torque is required. Without the proper functioning of the shunt field, motors could experience fluctuations that lead to inefficiencies and potential damage.Furthermore, the integration of shunt fields in modern electrical systems highlights the importance of innovation in engineering. With advancements in materials and technology, engineers are continually finding new ways to optimize shunt fields for better performance. Research into superconducting materials, for example, may lead to even more efficient shunt field designs, pushing the boundaries of what is possible in electrical engineering.In conclusion, the shunt field is a critical component in the realm of electrical machines, providing essential functions such as voltage regulation and performance enhancement. Its significance cannot be understated, as it plays a vital role in ensuring the efficiency and reliability of various electrical systems. As technology continues to evolve, the understanding and application of shunt fields will remain a cornerstone of electrical engineering education and practice, paving the way for future innovations in the field.
“shunt field”的概念在电气工程和电动机设计的研究中至关重要。“shunt field”指的是一种特定类型的磁场,由放置在机器的主场绕组旁边的线圈产生,例如发电机或电动机。这种配置允许控制磁场强度,从而影响机器的性能和效率。理解“shunt field”的操作可以提供对电磁学更广泛原则及其在各种技术中的应用的深入见解。在实际应用中,“shunt field”常用于调节发电机的电压输出。通过调整流经“shunt field”的电流,工程师可以控制磁场的强度,这直接影响所产生的电压。这种调节输出的能力对于需要稳定电压的应用至关重要,例如家庭和工业的电力生成。此外,使用“shunt field”还可以提高电气机器的整体效率。当设计得当时,具有“shunt field”的机器可以在较低的能量损耗下运行,从而降低运营成本并改善可持续性。随着世界向更环保的技术发展,理解和实施“shunt fields”在设计过程中的重要性愈发凸显。除了在电压调节中的作用外,“shunt fields”在电动机的性能特征中也发挥着重要作用。例如,在串励直流电动机中,“shunt field”有助于在不同负载条件下保持恒定速度。这种稳定性对于许多工业应用至关重要,这些应用需要精确控制速度和扭矩。如果“shunt field”未能正常工作,电动机可能会经历波动,导致效率低下和潜在损坏。此外,在现代电气系统中整合“shunt fields”突显了工程创新的重要性。随着材料和技术的进步,工程师们不断寻找新的方法来优化“shunt fields”,以获得更好的性能。例如,对超导材料的研究可能会导致更高效的“shunt field”设计,推动电气工程领域的可能性界限。总之,“shunt field”是电气机器领域的关键组成部分,提供电压调节和性能增强等基本功能。它的重要性不容小觑,因为它在确保各种电气系统的效率和可靠性方面发挥着至关重要的作用。随着技术的不断发展,对“shunt fields”的理解和应用将始终是电气工程教育和实践的基石,为该领域未来的创新铺平道路。
