stray load loss

简明释义

杂散负载损失

英英释义

例句

1.The technician adjusted the settings to minimize stray load loss 偏载损耗 during operation.

技术员调整设置，以在运行过程中最小化stray load loss 偏载损耗。

2.Understanding stray load loss 偏载损耗 is crucial for improving overall system performance.

理解stray load loss 偏载损耗对于提高整体系统性能至关重要。

3.To reduce the stray load loss 偏载损耗, we need to optimize the winding design.

为了减少stray load loss 偏载损耗，我们需要优化绕组设计。

4.The engineer explained that the stray load loss 偏载损耗 in the motor could significantly affect its efficiency.

工程师解释说，电机中的stray load loss 偏载损耗可能会显著影响其效率。

5.During the testing phase, the team noticed a high level of stray load loss 偏载损耗 in the transformer.

在测试阶段，团队注意到变压器中有较高的stray load loss 偏载损耗。

作文

In the world of electrical engineering, efficiency is a key concern, especially when it comes to the performance of electrical machines. One of the factors that can significantly impact this efficiency is what we refer to as stray load loss. Understanding this concept is essential for engineers and technicians who work with motors and generators, as it directly affects the operational cost and overall performance of these machines.Stray load loss refers to the losses that occur in an electrical machine due to the non-uniform distribution of current in the windings when the machine is under load. This phenomenon is often overlooked, yet it plays a crucial role in determining the efficiency of electric motors. When an electric motor operates, the current flowing through its windings creates a magnetic field that interacts with the rotor. Ideally, this interaction should be uniform; however, imperfections in the winding and variations in the magnetic field can lead to uneven current distribution.The primary source of stray load loss is the leakage flux that occurs in the machine. As the load on the motor increases, the current distribution becomes more uneven, resulting in additional losses in the form of heat. This not only reduces the efficiency of the motor but also can lead to increased wear and tear, ultimately shortening the lifespan of the machine. Engineers must take these losses into account when designing and selecting motors for specific applications.To mitigate stray load loss, several strategies can be employed. One common approach is to improve the design of the windings to ensure a more uniform current distribution. This can be achieved by using techniques such as better insulation materials, optimized winding configurations, or advanced manufacturing processes that minimize imperfections. Additionally, employing advanced simulation tools during the design phase can help predict and reduce these losses before the motor is even built.Another method to address stray load loss is through regular maintenance and monitoring of electric motors. By keeping an eye on the performance and condition of the machine, technicians can identify issues that may lead to increased losses. For instance, if a motor shows signs of overheating or abnormal vibrations, it may indicate that the stray load loss is higher than expected. Regular inspections can help catch these problems early, allowing for timely repairs and adjustments.In conclusion, stray load loss is a critical consideration in the design and operation of electrical machines. By understanding its causes and effects, engineers can implement strategies to minimize these losses, leading to more efficient and reliable machines. As the demand for energy-efficient solutions continues to grow, addressing stray load loss will become increasingly important in the field of electrical engineering. Therefore, ongoing research and development in this area are essential to push the boundaries of what is possible in electrical machine performance.

在电气工程的世界中，效率是一个关键问题，特别是在电机和发电机的性能方面。影响这一效率的因素之一就是我们所称的杂散负载损耗。理解这个概念对于从事电机和发电机工作的工程师和技术人员至关重要，因为它直接影响到这些机器的运营成本和整体性能。杂散负载损耗是指在电机负载时，由于绕组中电流分布不均而导致的损耗。这种现象常常被忽视，但它在决定电动机效率方面起着至关重要的作用。当电动机运行时，流经其绕组的电流会产生一个磁场，该磁场与转子相互作用。理想情况下，这种相互作用应该是均匀的；然而，绕组中的缺陷和磁场的变化可能导致电流分布不均。杂散负载损耗的主要来源是电机中发生的漏磁通。当电机的负载增加时，电流分布变得更加不均匀，导致以热的形式产生额外的损耗。这不仅降低了电动机的效率，还可能导致磨损加剧，最终缩短机器的使用寿命。工程师在为特定应用设计和选择电动机时，必须考虑这些损耗。为了减轻杂散负载损耗，可以采取几种策略。一种常见的方法是改善绕组的设计，以确保电流分布更均匀。这可以通过使用更好的绝缘材料、优化绕组配置或先进的制造工艺来减少缺陷。此外，在设计阶段采用先进的仿真工具可以帮助预测并减少这些损耗，甚至在电动机建造之前就进行调整。另一个解决杂散负载损耗的方法是定期维护和监测电动机。通过关注机器的性能和状况，技术人员可以识别可能导致损耗增加的问题。例如，如果电动机出现过热或异常振动的迹象，可能表明杂散负载损耗高于预期。定期检查可以帮助及早发现这些问题，从而及时进行维修和调整。总之，杂散负载损耗是电气机器设计和操作中的一个关键考虑因素。通过理解其原因和影响，工程师可以实施策略来最小化这些损耗，从而提高机器的效率和可靠性。随着对节能解决方案的需求不断增长，解决杂散负载损耗将在电气工程领域变得越来越重要。因此，在这一领域的持续研究和开发对于推动电气机器性能的界限至关重要。