A 2d aerodynamic study on morphing of the naca 2412 aerofoil

13th Research and Education in Aircraft Design: Conference proceedings Pub Date : 1900-01-01 DOI:10.13164/conf.read.2018.6

Pratik Meghani

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引用次数: 2

Abstract

This paper investigates the potential of modifications in the NACA 2412 aerofoil’s geometry which could be implemented as a morphing wing in the Cessna 172SP. A 2D study on three morphing configurations: landing, take-off and stall maneuvering was conducted. The new geometries were designed using XFLR5. The initial aerodynamics characteristics were computed using XFOIL and compared to that of NACA 2412 in the Cessna 172SP. A selected configuration (landing) was tested at the University of Brighton wind tunnel facility, in comparison to XFOIL predictions. Moreover, the ESDU 07010 report was used to extrapolate the Reynold’s number to full scale, which was necessary to obtain an approximation of the aerodynamic characteristics at actual flight. The paper presents results of ANSYS FLUENT simulations for all three configurations. Results reveal that XFOIL is suitable for morphing airfoil configuration analysis but only at low Reynolds number (Re≈500,000). Adaptive aerofoil geometry improves the lift to drag (L/D) ratio by decreasing the drag coefficient; it also expands the flight envelope by delaying stall.

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naca 2412型翼型的二维气动变形研究

本文研究了NACA 2412型翼型的几何形状变化的可能性，该翼型可以在Cessna 172SP上作为变形翼实现。对着陆、起飞和失速机动三种变形构型进行了二维研究。新的几何形状是使用XFLR5设计的。使用XFOIL计算了初始空气动力学特性，并与Cessna 172SP中的NACA 2412进行了比较。选定的配置(着陆)在布莱顿大学风洞设施进行了测试，与XFOIL预测进行了比较。此外，ESDU 07010报告用于将雷诺数外推到满量程，这对于获得实际飞行时的空气动力学特性的近似是必要的。本文给出了三种结构的ANSYS FLUENT仿真结果。结果表明，XFOIL仅适用于低雷诺数(Re≈500000)的变形翼型结构分析。自适应翼型通过降低阻力系数提高升阻比(L/D);它还通过延迟失速来扩大飞行范围。

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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13th Research and Education in Aircraft Design: Conference proceedings

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