A Study of High Lift Aerodynamic Devices on Commercial Aircrafts

Swamy Naidu Venkata Neigapula, S. Maddula, Vasishta Bhargava Nukala
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引用次数: 6

Abstract

Aerodynamic performance of aircraft wings vary with flight path conditions and depend on efficiency of high lift systems. In this work, a study on high lift devices and mechanisms that aim to increase maximum lift coefficient and reduce drag on commercial aircraft wings is discussed. Typically, such extensions are provided to main airfoil along span wise direction of wing and can increase lift coefficient by more than 100% during operation. Increasing the no of trailing edge flaps in chord wise direction could result in 100% increment in lift coefficient at a given angle of attack but leading edge slats improve lift by delaying the flow separation near stall angle of attack. Different combinations of trailing edge flaps used by Airbus, Boeing and McDonnel Douglas manufacturers are explained along with kinematic mechanisms to deploy them. The surface pressure distribution for 30P30N airfoil is evaluated using 2D vortex panel method and effects of chord wise boundary layer flow transitions on aerodynamic lift generation is discussed. The results showed better agreements with experiment data for high Reynolds number (9 million) flow conditions near stall angle of attack.
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商用飞机大升力气动装置研究
飞机机翼的气动性能随航迹条件的变化而变化,并取决于大升力系统的效率。本文对商用飞机机翼上的高升力装置和机构进行了研究,目的是提高最大升力系数和减小阻力。通常情况下,这样的扩展提供给主翼型沿跨度明智的方向的翅膀,可以增加升力系数在操作期间超过100%。在一定迎角下,增加尾缘顺弦方向的襟翼数量可以使升力系数增加100%,而前缘板条通过延迟失速迎角附近的流动分离来提高升力。空客、波音和麦克唐纳道格拉斯制造商使用的不同尾缘襟翼组合,以及部署它们的运动学机制进行了解释。采用二维涡盘法对30P30N翼型的表面压力分布进行了评估,讨论了弦向边界层流动转捩对气动升力产生的影响。在接近失速攻角的高雷诺数(900万)流动条件下,计算结果与实验数据吻合较好。
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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