Solar Panel Effect on Low-Speed Airfoil Aerodynamic Performance

Unmanned Syst. Pub Date : 2020-04-21 DOI:10.21203/rs.3.rs-21225/v1

M. El-Salamony, M. Aziz

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引用次数: 3

Abstract

Recently, a great interest in search of alternate means of power for the traditional fuel for aircraft propulsion is raised so as to decrease gas emissions and reduce operating costs. For the small and micro unmanned aerial vehicles or small transportation aircraft, there are many challenges in the direction of constructing an electric or solar powered airplane whose wings may possibly be sheltered with photo voltaic PV solar panels to harvest sun’s energy for propulsion. Greatest remarkably success solar powered aircraft has attracted the attention of researchers other than UAV and small aircraft supporters. Although the solar panel is thin, its thickness is considerable compared to the airfoil thickness. This paper aims to evaluate the impact of adding the solar panel over a low camber airfoil suitable for low-Reynolds number flights, as mini UAVs. Three panel installation configurations are examined to stand on the most suitable configuration, in terms of aerodynamic efficiency. The analysis is based on the airfoil characteristics (lift, drag, and moment) and the pressure distribution over the airfoil surface. A parametric study is conducted to study the effect of the solar panel size, thickness, and position on the aerodynamic performance.

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太阳能电池板对低速翼型气动性能的影响

近年来，人们对寻找替代传统燃料的动力方式以减少气体排放和降低运营成本产生了极大的兴趣。对于小型和微型无人机或小型运输飞机来说，在建造电动或太阳能飞机的方向上存在许多挑战，这些飞机的机翼可能会受到光伏太阳能电池板的保护，以收集太阳能用于推进。太阳能飞机的巨大成功吸引了无人机和小型飞机支持者以外的研究人员的注意。虽然太阳能板很薄，但其厚度与翼型厚度相比是相当大的。本文旨在评估在适合低雷诺数飞行的低弧度翼型上添加太阳能板的影响，如微型无人机。三个面板安装配置进行了检查，站在最合适的配置，在空气动力学效率方面。分析是基于翼型特性(升力，阻力和力矩)和压力分布在翼型表面。采用参数化方法研究了太阳能板的尺寸、厚度和位置对其气动性能的影响。

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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Unmanned Syst.

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