Effect of Vortex Generators on Airfoil NACA 632-415 to Aerodynamic Characteristics Using CFD

International Journal of Electrical, Energy and Power System Engineering Pub Date : 2023-02-28 DOI:10.31258/ijeepse.6.1.133-137

R. Permatasari, Gusty Widyawati

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Abstract

To determine the aircraft’s flight performance, the airfoil type must be considered when designing the wing. A vortex can form when the airfoil travels through a fluid stream with a difference in velocity and pressure around it. Airfoil modification is carried out to delay the occurrence of flow separation by adding a vortex generator. This paper discusses how adding the vortex generator helps slow the stall’s onset and how the vortex generator affects the fluid flow and aerodynamic forces acting on the NACA 632-415. The vortex generator profile is positioned at an x/c = 20% of the chord line’s direction from the leading edge. The variation used is an airfoil’s angle of attack (α). Some parameters to be evaluated include the coefficient lift force (CL), the coefficient drag force (CD), and the gliding ratio (CL/CD). The research was conducted by the CFD method based on the angle of attack that produces the coefficient lift and drag forces. The addition of the vortex generator can delay the flow separation, increase the lift force coefficient by about 24.9%, the drag force coefficient by about 2.7%, and the gliding ratio by 9.1%.

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涡发生器对NACA 632-415翼型气动特性的影响

为了确定飞机的飞行性能，在设计机翼时必须考虑翼型的类型。当翼型在速度和压力不同的情况下穿过流体流时，就会形成涡流。对翼型进行了改进，通过增加涡发生器来延缓流动分离的发生。本文讨论了增加涡发生器如何帮助减缓失速的发生，以及涡发生器如何影响作用在NACA 632-415上的流体流动和气动力。涡发生器剖面位于弦线与前缘方向x/c = 20%的位置。使用的变化是一个翼型的迎角(α)。需要评估的参数包括升力系数(C—L)、阻力系数(CD)和滑行比(C—L/CD)。采用基于攻角产生升力和阻力系数的CFD方法进行了研究。旋涡发生器的加入可以延缓流动分离，使升力系数提高约24.9%，阻力系数提高约2.7%，滑行比提高9.1%。

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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来源期刊

International Journal of Electrical, Energy and Power System Engineering

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