Aerodynamics Effect of Holes in UAV Wings Modified for VTOL Capability

Drone Systems and Applications Pub Date : 2022-06-01 DOI:10.1139/dsa-2021-0031

L. Sawaqed, Ahmad Bani Younes, Mohammad I. Aldalal’ah

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Abstract

This research investigates the possibility of modifying the X8 Skywalker from a fixed-wing unmanned aerial vehicle into a convertiplane to utilize the advantages of vertical take-off and landing and maintain the benefits of fixed-wing design. In this study two configurations were tested; the first one includes sharp holes embedded in the wings for the propellers and the second one has filleted holes. The purpose of the study is to analyze the new configurations’ ability to generate enough lift after reducing the wings area. The aerodynamic coefficients are calculated through computational fluid dynamics. Simulation results were validated experimentally by using the wind tunnel. Even though the holes reduced the wing area by about 20%, the proposed modifications could lead lift to drag ratio around 7. The results showed that the new configurations can generate five times the lift compared to the drag, while the maximum lift to drag ratio dropped by 50% compared to the original design. At the same time, the filleted hole configuration showed less drag and turbulence effects, especially at a low angle of attack, compared to the sharp hole configuration.

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无人机机翼孔对垂直起降性能的空气动力学影响

本研究探讨了将X8天行者从固定翼无人机改装成可转换飞机的可能性，以利用垂直起降的优势，并保持固定翼设计的优势。在本研究中，测试了两种配置;第一个包括尖锐的孔嵌入在机翼的螺旋桨和第二个有圆角孔。这项研究的目的是分析在减小机翼面积后新结构产生足够升力的能力。采用计算流体力学方法计算气动系数。利用风洞对仿真结果进行了验证。尽管这些孔减少了约20%的机翼面积，但拟议的改进可能会使升阻比达到7左右。结果表明，新配置可以产生5倍于阻力的升力，而最大升阻比与原设计相比下降了50%。与此同时，与尖孔结构相比，圆角孔结构表现出较小的阻力和湍流影响，特别是在低攻角时。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Drone Systems and Applications

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