Taylor wake factor

简明释义

泰勒伴流因数

英英释义

例句

1.The calculation of the Taylor wake factor is crucial for understanding the aerodynamic performance of the aircraft.

计算Taylor wake factor对于理解飞机的气动性能至关重要。

2.Understanding the Taylor wake factor is essential for improving the safety of high-speed trains.

理解Taylor wake factor对提高高速列车的安全性至关重要。

3.In wind turbine design, the Taylor wake factor helps optimize energy capture by analyzing wake effects.

在风力涡轮机设计中，Taylor wake factor通过分析尾流效应来帮助优化能量捕获。

4.The Taylor wake factor can significantly influence the performance of multiple turbines in close proximity.

Taylor wake factor可以显著影响相邻多台涡轮的性能。

5.Engineers use the Taylor wake factor to predict the wake turbulence behind a moving vehicle.

工程师使用Taylor wake factor来预测移动车辆后面的尾流湍流。

作文

The concept of the Taylor wake factor is crucial in fluid dynamics, particularly when analyzing the behavior of wakes behind objects moving through a fluid. In simple terms, the Taylor wake factor is a dimensionless number that quantifies the influence of an object's shape and speed on the wake it generates. This factor is named after the renowned mathematician G.I. Taylor, who made significant contributions to the understanding of fluid mechanics. In many engineering applications, especially in aerodynamics and hydrodynamics, understanding the wake created by an object can help in designing more efficient vehicles, whether they are airplanes, cars, or ships. The wake refers to the turbulent flow of fluid that trails behind an object as it moves through the fluid. A well-designed object will minimize the size and intensity of its wake, leading to reduced drag and improved performance.The Taylor wake factor helps engineers and scientists predict how changes in design or speed will affect the wake. For instance, if an aircraft's wing is altered, the Taylor wake factor can be used to estimate how this change will impact the drag force acting on the wing. This is particularly important because reducing drag can lead to fuel savings and enhanced speed. Moreover, the Taylor wake factor can also play a role in environmental studies. When considering the impact of ships on marine ecosystems, for example, understanding the wake generated by a vessel can help in assessing how it affects sediment displacement and aquatic life. A larger wake might mean more disruption to the underwater environment, which can have long-term consequences for local wildlife. Additionally, the Taylor wake factor is applicable in the context of wind turbines. Engineers use this factor to analyze how the wake from one turbine affects the performance of neighboring turbines. By optimizing the spacing and arrangement of turbines, energy production can be maximized while minimizing the negative effects of wake turbulence. In conclusion, the Taylor wake factor is a vital tool in various fields of study, including engineering, environmental science, and aerodynamics. It provides insights into the complex interactions between moving objects and their surrounding fluids. By understanding and applying the Taylor wake factor, researchers and engineers can innovate and improve designs that are not only efficient but also environmentally friendly. As we continue to advance in technology and face challenges such as climate change, the importance of understanding phenomena like the Taylor wake factor cannot be overstated. It represents a bridge between theoretical knowledge and practical application, enabling us to create solutions that benefit both society and the planet.

“Taylor wake factor”（泰勒尾流因子）的概念在流体动力学中至关重要，尤其是在分析物体在流体中移动时产生的尾流行为时。简单来说，Taylor wake factor 是一个无量纲数，量化了物体的形状和速度对其产生的尾流的影响。这个因子以著名数学家G.I. 泰勒的名字命名，他对流体力学的理解做出了重要贡献。在许多工程应用中，特别是在空气动力学和水动力学中，理解物体产生的尾流可以帮助设计更高效的交通工具，无论是飞机、汽车还是船只。尾流是指物体在流体中移动时，后方产生的湍流流动。一个设计良好的物体将最小化其尾流的大小和强度，从而减少阻力并提高性能。Taylor wake factor 帮助工程师和科学家预测设计或速度的变化将如何影响尾流。例如，如果改变一架飞机的机翼，Taylor wake factor 可以用来估计这种变化将对机翼施加的阻力产生何种影响。这一点尤为重要，因为减少阻力可以带来燃油节省和速度提升。此外，Taylor wake factor 在环境研究中也起着作用。当考虑船只对海洋生态系统的影响时，理解船只产生的尾流可以帮助评估其对沉积物位移和水生生物的影响。较大的尾流可能意味着对水下环境的更多干扰，这可能对当地野生动物产生长期影响。此外，Taylor wake factor 还适用于风力涡轮机的背景。工程师利用这一因子分析一个涡轮机的尾流如何影响邻近涡轮机的性能。通过优化涡轮机的间距和排列，可以最大化能源生产，同时最小化尾流湍流的负面影响。总之，Taylor wake factor 是各个研究领域的重要工具，包括工程、环境科学和空气动力学。它提供了关于移动物体与周围流体之间复杂相互作用的见解。通过理解和应用Taylor wake factor，研究人员和工程师可以创新并改善不仅高效而且环保的设计。随着我们在技术上的不断进步以及面临气候变化等挑战，理解像Taylor wake factor这样的现象的重要性不容小觑。它代表了理论知识与实际应用之间的桥梁，使我们能够创造出既有利于社会又有利于地球的解决方案。