A Numerical Approach for Implementing Air Intakes in a Canard Type Aircraft for Engine Cooling Purposes

IF 0.9 Q3 ENGINEERING, AEROSPACE
O. Almeida, P. Souza, E. Cunha
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引用次数: 3

Abstract

This work presents selected results of an unconventional aircraft development campaign. Engine installation at the rear part of the fuselage imposed design constraints for air intakes that should be used for cooling purposes. Trial and error flight tests increased the development cost and time which required a more sophisticated analysis through computational fluid dynamics (CFD) techniques and robust semiempirical approach. The carried-out investigation of the air intakes started with an empirical approach from guidelines for designing NACA and scoops. Numerical studies via computational fluid dynamics were performed with the air intakes installed in the aircraft fuselage. An analysis based on the air intake efficiency, drag and the effect of angle of attack are detailed in this work. Different air intakes designs, such as scoops of different shapes, were evaluated seeking for improved air intake efficiency and low drag while providing enough air for cooling the engine compartment. The results showed that the numerical approach used herein decreased the development cost and time of the aircraft, providing a reasonable low-cost approach and leading to a design selection more easily. Based on the current approach the canard airplane geometry was changed to account for the new selected air intake for engine cooling purposes.
鸭式飞机发动机冷却进气口的数值计算方法
这项工作提出了一个非常规飞机发展运动的选择结果。发动机安装在机身后部,对应该用于冷却目的的进气口施加了设计限制。试验和错误飞行测试增加了开发成本和时间,这需要通过计算流体动力学(CFD)技术和强大的半经验方法进行更复杂的分析。对进气口的调查从设计NACA和铲的指导方针的经验方法开始。采用计算流体力学方法对飞机机身上安装的进气口进行了数值研究。从进气效率、阻力和迎角的影响等方面进行了详细的分析。为了提高进气效率和降低阻力,同时提供足够的空气冷却发动机舱,研究人员评估了不同的进气设计,例如不同形状的勺子。结果表明,数值方法降低了飞机的开发成本和时间,提供了一种合理的低成本方法,更容易进行设计选择。在现有方法的基础上,鸭翼飞机的几何形状发生了变化,以考虑发动机冷却目的所选择的新进气口。
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
2.00
自引率
0.00%
发文量
16
审稿时长
20 weeks
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