leakage flux

简明释义

漏磁通

英英释义

例句

1.To improve performance, we need to minimize the leakage flux in our design.

为了提高性能，我们需要在设计中最小化漏磁通。

2.Monitoring leakage flux is crucial for maintaining system integrity.

监测漏磁通对维护系统完整性至关重要。

3.Excessive leakage flux can lead to energy losses in electrical systems.

过多的漏磁通会导致电气系统中的能量损失。

4.The technician identified a problem with the leakage flux in the magnetic circuit.

技术员发现磁路中的漏磁通存在问题。

5.The engineer measured the leakage flux to determine the efficiency of the transformer.

工程师测量了漏磁通以确定变压器的效率。

作文

In the field of electrical engineering, understanding various concepts is crucial for designing efficient systems. One such concept is leakage flux, which refers to the magnetic flux that does not contribute to the intended operation of a device. This phenomenon often occurs in transformers and inductors, where some amount of magnetic field lines escape from the core material and do not link with the intended winding. The presence of leakage flux can lead to energy losses, reduced efficiency, and increased heat generation in electrical devices.To better understand leakage flux, it is essential to consider its implications in practical applications. For instance, in power transformers, the design aims to minimize leakage flux to ensure that the maximum amount of energy is transferred from the primary to the secondary winding. If the leakage flux is significant, it can result in lower voltage output and increased losses, which are detrimental to the overall performance of the transformer.Moreover, the concept of leakage flux is not limited to transformers alone. It also applies to electric motors, where unwanted magnetic fields can cause inefficiencies. In a motor, leakage flux can lead to torque reduction and overheating, ultimately affecting the motor's lifespan and reliability. Therefore, engineers must consider leakage flux when designing motor systems to ensure optimal performance.Another critical aspect of leakage flux is its relationship with electromagnetic interference (EMI). As leakage flux escapes from a device, it can interact with nearby electronic components, causing unintended signals and noise. This interference can disrupt the operation of sensitive equipment, making it essential to mitigate leakage flux through proper shielding and design techniques.In conclusion, leakage flux is a fundamental concept in electrical engineering that has significant implications for the efficiency and performance of various devices. By understanding and managing leakage flux, engineers can design systems that minimize energy losses and enhance reliability. Whether in transformers, motors, or other electrical devices, addressing leakage flux is vital for achieving optimal performance and longevity. As technology continues to advance, the importance of understanding leakage flux will only grow, making it a critical area of focus for future innovations in electrical engineering.

在电气工程领域，理解各种概念对于设计高效的系统至关重要。其中一个概念是泄漏磁通，它指的是不为设备的预期操作贡献的磁通量。这种现象通常发生在变压器和电感中，一些磁场线从核心材料中逸出，并未与预定的绕组相连。泄漏磁通的存在可能导致能量损失、效率降低以及电气设备中的热量增加。为了更好地理解泄漏磁通，必须考虑其在实际应用中的影响。例如，在电力变压器中，设计的目标是尽量减少泄漏磁通，以确保最大数量的能量从初级绕组传输到次级绕组。如果泄漏磁通显著，可能导致输出电压降低和损耗增加，这对变压器的整体性能是有害的。此外，泄漏磁通的概念并不仅限于变压器。在电动机中，不必要的磁场会导致低效率。在电动机中，泄漏磁通可能导致扭矩减少和过热，最终影响电动机的使用寿命和可靠性。因此，工程师在设计电动机系统时必须考虑泄漏磁通，以确保最佳性能。泄漏磁通的另一个关键方面是它与电磁干扰（EMI）的关系。当泄漏磁通从设备中逸出时，它可能与附近的电子元件相互作用，产生意外信号和噪声。这种干扰可能会干扰敏感设备的操作，因此通过适当的屏蔽和设计技术来减轻泄漏磁通是至关重要的。总之，泄漏磁通是电气工程中的一个基本概念，对各种设备的效率和性能具有重要意义。通过理解和管理泄漏磁通，工程师可以设计出最大程度减少能量损失和提高可靠性的系统。无论是在变压器、电动机还是其他电气设备中，解决泄漏磁通问题对于实现最佳性能和延长设备寿命至关重要。随着技术的不断进步，理解泄漏磁通的重要性将愈加突出，使其成为电气工程未来创新的关键关注领域。