Aeroacoustic Measurements from the Aerodynamic and Acoustic Rotorprop Test (AART) in the National Full-Scale Aerodynamics Complex (NFAC) 40- by 80-Foot Wind Tunnel 

James H. Stephenson, B. Cheung, Nikolas S. Zawodny, D. Sargent, B. Sim, Natasha L. Schatzman
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Abstract

Unmanned Aerial Vehicle (UAV) designs typically have aerodynamic configurations that result in complex aerodynamic and acoustic conditions, such as wing and propeller interaction. In response, the Aerodynamic and Acoustic Rotorprop Test (AART) Program was implemented, a primary objective of which was to determine the aerodynamics and acoustics related to an auxiliary propulsor mounted behind an isolated wing in the National Full-Scale Aerodynamics Complex (NFAC) 40-by 80-Foot Wind Tunnel. Three configurations (no wing, half wing, and full wing) were tested, with conditions including variation of the propeller speed, wind tunnel Mach number, and yaw. The acoustic setup, processing, and analysis are discussed along with the known issues for this complex data set. The interaction of upstream bodies and the resulting substantial increase in acoustic emissions are detailed.
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在国家全尺寸空气动力学综合体(NFAC) 40 × 80英尺风洞中进行的气动和声学旋翼试验(AART)的气动声学测量
无人机(UAV)设计通常具有气动配置,导致复杂的气动和声学条件,例如机翼和螺旋桨相互作用。为此,在国家全尺寸空气动力学综合体(NFAC) 40 × 80英尺风洞中,实施了气动和声学旋翼试验(AART)项目,主要目标是确定安装在隔离翼后的辅助推进器的空气动力学和声学特性。测试了三种构型(无机翼、半机翼和全机翼),条件包括螺旋桨速度、风洞马赫数和偏航的变化。讨论了声学设置、处理和分析以及该复杂数据集的已知问题。详细介绍了上游体的相互作用和由此产生的声发射的大量增加。
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