Dynamic Stall Investigation on a Rotating Semielastic Double-swept Rotor Blade at the Rotor Test Facility Göttingen

IF 1.4 4区工程技术 Q2 ENGINEERING, AEROSPACE

Journal of the American Helicopter Society Pub Date : 2023-04-01 DOI:10.4050/jahs.68.022007

Martin M. Müller, Armin Weiss, Johannes N. Braukmann

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引用次数: 0

Abstract

Experimental investigations of three-dimensional dynamic stall on a four-bladed Mach-scaled semielastic rotor with an innovative double-swept rotor blade planform are presented. The study focuses on the coupling between the aeroelastic behavior of the blade and the underlying aerodynamics. Blade bending moment and flap displacement measurements were conducted using strain gauges and optical tracking of blade tip markers. The aerodynamic behavior was characterized by means of unsteady surface pressure measurements using unsteady pressure-sensitive paint (iPSP) across the outer 65% of the blade span and fast response pressure transducers at discrete locations. Different cyclic-pitch settings were investigated at a rotation frequency of f rotor = 23.6 Hz that corresponds to blade tip Mach and Reynolds numbers of M tip = 0.282– 0.285 and Re tip = 5.84-5.95 ×10 5 . The findings reveal a detailed insight into the nonlinear behavior in the flap movement during downstroke. iPSP and pressure transducer data indicate that this nonlinear flap behavior is caused by a radially phase-shifted dynamic stall process at the forward and backward swept part of the blade.

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旋转半弹性双掠旋翼叶片在旋翼试验装置上的动态失速研究Göttingen

提出了一种新型双掠旋翼平台的四叶半弹性转子三维动态失速实验研究。研究的重点是叶片的气动弹性行为与底层空气动力学之间的耦合。叶片弯矩和襟翼位移测量采用应变片和光学跟踪叶尖标记。采用非定常压敏涂料(iPSP)测量叶片外展65%的非定常表面压力，并在离散位置使用快速响应压力传感器来表征气动特性。在f转子旋转频率= 23.6 Hz时，研究了不同的循环节距设置，对应于叶尖马赫数和M叶尖雷诺数分别为0.282 ~ 0.285和5.84 ~ 5.95 ×10 5。研究结果揭示了下冲程中襟翼运动的非线性行为。iPSP和压力传感器数据表明，这种非线性襟翼行为是由叶片前掠和后掠部分径向相移的动态失速过程引起的。

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

Journal of the American Helicopter Society 工程技术-工程：宇航

CiteScore

4.10

自引率

33.30%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of the American Helicopter Society is a peer-reviewed technical journal published quarterly (January, April, July and October) by AHS — The Vertical Flight Society. It is the world''s only scientific journal dedicated to vertical flight technology and is available in print and online. The Journal publishes original technical papers dealing with theory and practice of vertical flight. The Journal seeks to foster the exchange of significant new ideas and information about helicopters and V/STOL aircraft. The scope of the Journal covers the full range of research, analysis, design, manufacturing, test, operations, and support. A constantly growing list of specialty areas is included within that scope. These range from the classical specialties like aerodynamic, dynamics and structures to more recent priorities such as acoustics, materials and signature reduction and to operational issues such as design criteria, safety and reliability. (Note: semi- and nontechnical articles of more general interest reporting current events or experiences should be sent to the VFS magazine