tip leadage loss

简明释义

叶顶漏泄损失

英英释义

例句

1.By using advanced materials, we can significantly reduce tip leadage loss 尖端漏电损失 in our products.

通过使用先进材料，我们可以显著减少我们产品中的尖端漏电损失tip leadage loss。

2.During the testing phase, we noticed significant tip leadage loss 尖端漏电损失 which affected the overall performance.

在测试阶段，我们注意到明显的尖端漏电损失tip leadage loss，这影响了整体性能。

3.To improve efficiency, the design team focused on reducing tip leadage loss 尖端漏电损失 in the new prototype.

为了提高效率，设计团队专注于减少新原型中的尖端漏电损失tip leadage loss。

4.The engineer explained that the tip leadage loss 尖端漏电损失 in the circuit could be minimized by using better insulation.

工程师解释说，电路中的尖端漏电损失tip leadage loss可以通过使用更好的绝缘材料来减少。

5.The technician measured the tip leadage loss 尖端漏电损失 to determine if the device was functioning properly.

技术员测量了尖端漏电损失tip leadage loss以确定设备是否正常工作。

作文

In the world of engineering and manufacturing, efficiency is key to success. One of the critical aspects that engineers must consider is the phenomenon known as tip leadage loss. This term refers to the energy or performance loss that occurs at the tips of rotating machinery, such as turbines or fans. Understanding tip leadage loss is essential for improving the overall efficiency of these systems. Firstly, it is important to recognize that tip leadage loss can occur due to various factors, including design flaws, material limitations, and operational conditions. For instance, when the blades of a turbine are not optimally shaped or aligned, the airflow can become turbulent, leading to a decrease in performance. Additionally, if the materials used in the construction of these blades are not strong enough to withstand the stresses of operation, they may deform, further contributing to tip leadage loss. Moreover, operational conditions such as speed and load also play a significant role in determining the extent of tip leadage loss. When a machine operates outside its designed parameters, the likelihood of performance loss increases. Engineers must conduct thorough testing and simulations to understand how their designs will perform under various conditions and to minimize the impact of tip leadage loss. To mitigate tip leadage loss, engineers can employ several strategies. One common approach is to optimize the blade design through computational fluid dynamics (CFD) simulations. By analyzing airflow patterns around the blades, engineers can make informed decisions about the best shape and angle for maximum efficiency. Furthermore, using advanced materials that offer better strength-to-weight ratios can help reduce deformation and maintain performance levels. Another effective strategy is regular maintenance and monitoring of machinery. By ensuring that all components are functioning correctly and replacing worn parts, companies can significantly reduce the impact of tip leadage loss. Implementing predictive maintenance techniques, where data is collected and analyzed to anticipate failures before they occur, can also be beneficial. In conclusion, understanding and addressing tip leadage loss is crucial for enhancing the efficiency of rotating machinery. By recognizing the factors that contribute to this phenomenon and employing effective strategies to mitigate its effects, engineers can improve performance, reduce energy consumption, and ultimately save costs. As technology continues to advance, the importance of minimizing tip leadage loss will only grow, making it a vital area of focus for engineers and manufacturers alike.

在工程和制造的世界中，效率是成功的关键。工程师必须考虑的一个关键方面是被称为尖端泄漏损失的现象。这个术语指的是在旋转机械（如涡轮机或风扇）的尖端发生的能量或性能损失。理解尖端泄漏损失对于提高这些系统的整体效率至关重要。首先，重要的是要认识到，尖端泄漏损失可能由于各种因素而发生，包括设计缺陷、材料限制和操作条件。例如，当涡轮叶片的形状或对齐方式不够优化时，气流可能会变得湍流，从而导致性能下降。此外，如果用于构建这些叶片的材料不足以承受操作的应力，它们可能会变形，进一步导致尖端泄漏损失。此外，速度和负载等操作条件也在确定尖端泄漏损失的程度方面发挥着重要作用。当机器在设计参数之外运行时，性能损失的可能性就会增加。工程师必须进行彻底的测试和模拟，以了解他们的设计在各种条件下的表现，并最大限度地减少尖端泄漏损失的影响。为了减轻尖端泄漏损失，工程师可以采用几种策略。一种常见的方法是通过计算流体动力学（CFD）模拟来优化叶片设计。通过分析叶片周围的气流模式，工程师可以就最佳形状和角度做出明智的决定，以实现最大效率。此外，使用提供更好强度与重量比的先进材料可以帮助减少变形并保持性能水平。另一种有效的策略是定期维护和监控机械。通过确保所有组件正常工作并更换磨损部件，公司可以显著减少尖端泄漏损失的影响。实施预测性维护技术，即收集和分析数据以在故障发生之前预见故障，也可以带来好处。总之，理解和解决尖端泄漏损失对提高旋转机械的效率至关重要。通过认识到导致这一现象的因素并采用有效策略来减轻其影响，工程师可以提高性能、减少能耗，并最终节省成本。随着技术的不断进步，最小化尖端泄漏损失的重要性只会增加，使其成为工程师和制造商关注的关键领域。