Study on design characteristics of airfoil pressure distribution for low Mach number general aircraft

Q3 Engineering 西北工业大学学报 Pub Date : 2023-02-01 DOI:10.1051/jnwpu/20234110028
Yu Zhang, J. Bai, Feng Qu
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Abstract

This paper studies several problems that may exist in the aerodynamic design of low Mach number general aircraft, and discusses the design characteristics of the pressure distribution of some related airfoils while part of the characteristics is verified by a multi-point laminar airfoil design case. Firstly, several issues which exist in the aerodynamic design of low Mach number general aircraft, such as relatively large zero-lift drag coefficient, high stall performance requirements, and large variation range of Reynolds number, are discussed and analyzed. Then, to address these issues, the paper extracts some useful design features that are beneficial to the airfoil aerodynamic performance from the study on the design characteristics of the pressure distribution of several turbulent flow airfoils and laminar flow airfoils that are designed for low Mach number general aircraft. Finally, by considering the typical design conditions of a light multi-purpose single-turboprop-engine general aircraft, including the cruise, climb and stall conditions, a multi-point laminar airfoil optimization is offered by using the GAW-1 airfoil as the baseline. The optimized foil has a 9.6 improvement in the lift-to-drag ratio of the cruise condition, a 16.3 improvement in the lift-to-drag ratio of the climb condition but a 0.115 decrease in the maximum lift coefficient of the stall condition. The results show that the requirements from the cruise, climb and stall conditions are contradictory to some degree in the considering multi-point optimization case, and the designers should deal with this trade-off carefully based on the features of the low Mach number general aircraft.
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低马赫数通用飞机翼型压力分布设计特性研究
本文研究了低马赫数通用飞机气动设计中可能存在的几个问题,讨论了一些相关翼型的压力分布设计特征,并通过多点层流翼型设计实例验证了部分特征。首先,对低马赫数通用飞机气动设计中存在的零升力阻力系数较大、失速性能要求较高、雷诺数变化范围较大等问题进行了讨论和分析。然后,为了解决这些问题,本文通过对低马赫数通用飞机设计的几种湍流翼型和层流翼型的压力分布设计特征的研究,提取了一些有益于翼型气动性能的设计特征。最后,通过考虑轻型多用途单涡桨发动机通用飞机的典型设计条件,包括巡航、爬升和失速条件,以GAW-1翼型为基准,提出了多点层流翼型优化方案。优化翼片在巡航条件下的升阻比提高了9.6,在爬升条件下的增阻比提高16.3,但在失速条件下的最大升力系数降低了0.115。结果表明,在考虑多点优化的情况下,巡航、爬升和失速条件的要求在一定程度上是矛盾的,设计人员应根据低马赫数通用飞机的特点谨慎处理这种权衡。
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来源期刊
西北工业大学学报
西北工业大学学报 Engineering-Engineering (all)
CiteScore
1.30
自引率
0.00%
发文量
6201
审稿时长
12 weeks
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