PanAir Study of Variation in Canard Location and Dihedral on Lift Characteristics of a Close-Coupled Wing-Canard Configuration

Faiza Sajjad, Muhammad Ihtisham Babar, Muneeb Ahsan
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Abstract

In this article, a higher-order panel code is used to study the effects of the vertical and horizontal location of the canard as well as its dihedral on the lift of a closely-coupled wing-canard configuration. PanAir is a higher-order potential code which solves Prandtl-Glauert equation in subsonic and supersonic regimes by distributing source and doublet singularities over a finite number of panels of a geometry. The available panel code is the pilot version of PanAir, which is capable of evaluating aerodynamic coefficients for complex geometries. Being a potential flow code, PanAir does not take into account the viscous aspect of the flow but gives quick and reasonable results for arbitrary configurations. To investigate the effect of location of canard, three horizontal and vertical positions are considered based on the maximum thickness of canard. Later, the effect of dihedral is studied using one value of canard dihedral and a corresponding value of anhedral. It is concluded that the addition of a canard in plane of the wing decreases the lift while moving it towards the wing increases the lift. Shifting the canard above the wing plane also adds to the lift of the aircraft. The effect of dihedral and anhedral on lift is highly dependent on the vertical and horizontal location of canard.
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鸭翼位置和二面体变化对紧密耦合翼-鸭翼结构升力特性的影响研究
本文采用高阶面板程序研究了鸭翼的垂直、水平位置及其二面体对紧密耦合翼-鸭翼结构升力的影响。PanAir是一种高阶势码,它通过在有限数量的几何平面上分布源和重偶奇点来求解亚音速和超音速状态下的Prandtl-Glauert方程。可用的面板代码是PanAir的试点版本,它能够评估复杂几何形状的空气动力学系数。作为一种势流代码,PanAir没有考虑流的粘性方面,而是对任意配置给出快速合理的结果。为了研究鸭翼位置的影响,在鸭翼最大厚度的基础上考虑了三个水平和垂直位置。在此基础上,利用鸭式二面体的一个值和鸭式二面体的一个对应值研究了二面体的影响。结果表明,在机翼平面上增加鸭翼会降低升力,而将鸭翼移向机翼会增加升力。将鸭翼移到机翼上方也增加了飞机的升力。鸭翼的垂直和水平位置对二面体和四面体升力的影响很大。
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