Scaled Model Testing of Coaxial Rotor Hub Flows

Charles Tierney, Nicholas A. Jaffa, D. Reich, S. Schmitz
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Abstract

Rotor hub parasite drag remains a primary obstacle to improving the forward-flight capabilities of helicopters. As part of a rotor hub flow physics project at the Vertical Lift Research Center of Excellence (VLRCOE) at Penn State, this investigation was designed to improve the understanding of the interactional aerodynamics and wake flow physics of counter-rotating coaxial rotor hubs and explore designs for reducing the rotor hub drag factor, Kfe. These experiments measured the time-averaged and time-varying drag on four rotor hub designs, each with unique blade stubs. The four shapes tested were the DBLN 526 airfoil, 3.25:1 Rectangle, 4:1 Ellipse, and the novel profile named the Optimized Cambered Shape (OCS). Load data was collected at four Reynolds numbers ranging from 3.77×105 to 1.51×106 and advance ratios ranging from .25 to .6. Additionally, stereoscopic particle-image velocimetry (SPIV) measured the three velocity components at two downstream locations in the wake of the DBLN 526 rotor hub at Re=1.13×106 and advance ratios of .25 and .6, providing insight into and visualizing the development of the wake. Presented here is the compiled load data and calculated Kfe from these experiments, as well as the flow fields at the near- and midwake locations, with discussion of new knowledge gained of the coaxial rotor hub wakes.
同轴转子轮毂流动的比例模型试验
旋翼轮毂寄生阻力仍然是提高直升机前飞能力的主要障碍。作为宾夕法尼亚州立大学垂直升力卓越研究中心(VLRCOE)旋翼轮毂流动物理项目的一部分,这项研究旨在提高对反向旋转同轴旋翼轮毂相互作用空气动力学和尾流物理的理解,并探索减少旋翼轮毂阻力系数Kfe的设计。这些实验测量了四种转子轮毂设计的时均和时变阻力,每种轮毂都有独特的叶片桩。测试的四种形状是DBLN 526翼型,3.25:1矩形,4:1椭圆,以及被称为优化弧面形状(OCS)的新型轮廓。负载数据在四个雷诺数范围为3.77×105至1.51×106,提前比范围为0.25至0.6时收集。此外,立体粒子图像测速(SPIV)测量了DBLN 526转子轮毂尾迹下游两个位置的三个速度分量,Re=1.13×106,推进比为0.25和0.6,提供了对尾迹发展的洞察和可视化。本文给出了从这些实验中编译的载荷数据和计算的Kfe,以及近尾迹和中尾迹位置的流场,并讨论了同轴转子轮毂尾迹的新知识。
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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