大提前比旋翼相互作用的实验与数值研究

Y. Tanabe, N. Kobiki, H. Sugawara, Hirotaka Hayashi, Kobayashi Wataru, Ryosuke Satou
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引用次数: 0

摘要

本文描述了在推进比为0.5时转子与三种不同展弦比的机翼相互作用的实验和数值研究。这三个机翼面积相等,固定在8度的迎角上。一个机翼安装在3个不同的垂直位置和3个不同的水平位置,以研究机翼位置对相互作用的影响。描述了测量的校准和校正过程,并将结果与试验前的CFD模拟进行了比较。在风洞试验之前,已经进行了基于简化转子模型和翼身模型的数值模拟。由于旋翼试验台和旋翼轮毂的存在,使得实测气动性能与CFD计算结果存在较大偏差。通过对机翼的迎角和阻力进行修正,消除了旋翼试验台的影响,机翼的性能与CFD计算结果吻合较好。此外,采用基于实测轮毂气动力分量的轮毂校正和攻角校正,校正后的高提前比隔离转子性能与CFD数据吻合较好。研究发现,在推进比为0.5时,由于旋翼相互作用,总升力-有效阻力比降低了约12%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental and Numerical Investigation of Interaction Between Rotor and Wing at High Advance Ratio
In this paper, an experimental and numerical study of a rotor interacting with wing of three different aspect ratios at an advance ratio of 0.5 is described. Those three wings have the equal area and fixed at an angle of attack of 8 degrees. One wing is installed at 3 different vertical positions and three different horizontal locations to investigate the influence of the wing position on the interaction. The calibration and correction process of the measurement is described, and the results are compared to pre-test CFD simulations. Numerical simulations based on simplified rotor and wing-body models have been carried out ahead of the wind-tunnel testing. Due to the existence of rotor-test-stand and the rotorhub which are not included in the CFD simulations, the measured aerodynamic performance deviated from the CFD results remarkably. By applying angle-of-attack and drag offset corrections which remove the influence of the rotortest-stand, the wing performance is found in good agreement with the CFD results. Also, applying hub-correction which is based on measured hub-only aerodynamic force components, and the angle-of-attack correction, the corrected isolated rotor performance in high advance ratio agrees satisfactorily with the CFD data. It is found that due to the rotor/wing interaction, the overall lift-to-effective drag ratios decrease about 12% at the advance ratio of 0.5.
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