Numerical and experimental investigation to design a novel morphing airfoil for performance optimization

IF 5.4 2区 工程技术 Q1 ENGINEERING, AEROSPACE
Kiumars Khani Aminjan , Maryam Ghodrat , Milad Heidari , Pooyan Rahmanivahid , Shayan Naghdi Khanachah , Mira Chitt , Juan Pablo Escobedo-Diaz
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引用次数: 2

Abstract

Optimizing flying objects' wing performance has attracted a significant attention in the last few decades. In this article, some of the main mechanisms for changing the geometry of the wing were investigated and a new mechanism is proposed to improve the aerodynamic performance of the airplane wing. The designs have been simulated and analyzed from both aerodynamic and control points of view. In aerodynamic simulations using CFD methods, two airfoils of NACA series 6 with specifications 65-212 and 65-2012 were modeled. The results indicated that both airfoils used have a better performance compared to others in a certain range of the angle of attack. Subsequently, a new mechanism is proposed to change the wing geometry to optimize its structure. In the proposed mechanism, the structures of airfoils and wings consist of two fixed and moving parts, which can change their geometry with the help of a control circuit. The fixed part has a grooved track, and as the moving part moves in the direction of the grooves, the curvature of the upper and lower parts of the wing changes. The design control circuit includes an angle sensor, a micro controller, and a servomotor. The CFD results are entered into the micro controller as code. At any moment, the micro controller receives the angle data from the angle sensor and by comparing them with the CFD data, and issuing a command to the servomotor, it situates the wing curvature in the optimal state at all times. The built mechanism was tested at an attack angle of 0° and 25°. The results showed that the different parts of the mechanism work with very high precision and put the geometric shape of the wing in an optimal state in a completely intelligent way. It should be noted that the average error in test for t/c and Xt/c was 15.3% and 9%, respectively.

用于性能优化的新型变形翼型设计的数值和实验研究
在过去的几十年里,优化飞行器的机翼性能引起了人们的极大关注。本文对改变机翼几何形状的一些主要机理进行了研究,并提出了一种改善飞机机翼气动性能的新机理。从气动和控制两个角度对设计进行了仿真和分析。采用CFD方法对NACA 6系列65-212和65-2012两种规格的翼型进行了气动仿真。结果表明,在一定迎角范围内,两种翼型都具有较好的性能。随后,提出了一种改变机翼几何形状以优化其结构的新机构。在提出的机制中,翼型和机翼的结构由两个固定和运动部件组成,它们可以在控制电路的帮助下改变它们的几何形状。固定部分具有沟槽轨道,当运动部分沿沟槽方向运动时,机翼上下部分的曲率会发生变化。设计的控制电路包括角度传感器、微控制器和伺服电机。计算结果以代码的形式输入微控制器。微控制器在任何时刻接收角度传感器的角度数据,并与CFD数据进行对比,向伺服电机发出指令,使机翼曲率始终处于最优状态。所建机构在攻角为0°和25°时进行了测试。结果表明,该机构各部分的工作精度很高,并以完全智能的方式使机翼的几何形状处于最佳状态。需要注意的是,t/c和Xt/c的测试平均误差分别为15.3%和9%。
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
CiteScore
7.50
自引率
5.70%
发文量
30
期刊介绍: Propulsion and Power Research is a peer reviewed scientific journal in English established in 2012. The Journals publishes high quality original research articles and general reviews in fundamental research aspects of aeronautics/astronautics propulsion and power engineering, including, but not limited to, system, fluid mechanics, heat transfer, combustion, vibration and acoustics, solid mechanics and dynamics, control and so on. The journal serves as a platform for academic exchange by experts, scholars and researchers in these fields.
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