Rotorcraft thickness noise control

IF 1.1 4区工程技术 Q3 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Archives of Mechanics Pub Date : 2021-08-16 DOI:10.24423/AOM.3756

O. Szulc

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Abstract

The paper describes an innovative idea of Thickness Noise Control (TNC) based on adoption of a flow control strategy (i.e. surface ventilation) for acoustic attenuation of helicopter rotor periodic noise. The TNC method is relying on incorporation of multiple cavities (closed by perforated panels and linked to low- and high-pressure reservoirs) located in a symmetrical manner at front and rear portions of the blade tip. The efficiency of the new approach is verified using a two-bladed model rotor of Purcell (untwisted variant of the blade of Bell UH-1H Iroquois helicopter) in low-thrust hover conditions. The results of numerical simulations, obtained with CFD solver (Spalart–Allmaras turbulence and Bohning–Doerffer transpiration models), indicate that in the near-field of the blade tip, both the amplitude and spectral contents of pressure impulses of emitted thickness noise are significantly improved. The TNC method, in the proposed unsteady mode of operation, turns out to be a suitable means of thickness noise reduction in forward flight. Moreover, it is demonstrated that by proper azimuthal activation the efficiency is almost unaltered, while the rotor torque penalty and required transpiration mass-flux are decreased by a factor of 3–5 compared to a steady arrangement.

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旋翼机厚度噪声控制

本文在采用流量控制策略（即表面通风）对直升机旋翼周期性噪声进行声学衰减的基础上，提出了厚度噪声控制（TNC）的创新思想。TNC方法依赖于以对称方式位于叶尖前部和后部的多个空腔（由穿孔板封闭并连接到低压和高压储液器）的结合。在低推力悬停条件下，使用Purcell（贝尔UH-1H易洛魁人直升机叶片的无扭转变体）的双叶片模型旋翼验证了新方法的效率。CFD求解器（Spalart–Allmaras湍流和Bohning–Doerffer蒸腾模型）获得的数值模拟结果表明，在叶尖近场，发射厚度噪声的压力脉冲的振幅和频谱含量都得到了显著改善。在所提出的非定常运行模式中，TNC方法被证明是前向飞行中降低厚度噪声的合适方法。此外，研究表明，通过适当的方位角激活，效率几乎不变，而与稳定布置相比，转子扭矩损失和所需的蒸腾质量通量减少了3-5倍。

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

Archives of Mechanics 工程技术-材料科学：表征与测试

CiteScore

1.40

自引率

12.50%

发文量

审稿时长

>12 weeks

期刊介绍： Archives of Mechanics provides a forum for original research on mechanics of solids, fluids and discrete systems, including the development of mathematical methods for solving mechanical problems. The journal encompasses all aspects of the field, with the emphasis placed on: -mechanics of materials: elasticity, plasticity, time-dependent phenomena, phase transformation, damage, fracture; physical and experimental foundations, micromechanics, thermodynamics, instabilities; -methods and problems in continuum mechanics: general theory and novel applications, thermomechanics, structural analysis, porous media, contact problems; -dynamics of material systems; -fluid flows and interactions with solids. Papers published in the Archives should contain original contributions dealing with theoretical, experimental, or numerical aspects of mechanical problems listed above. The journal publishes also current announcements and information about important scientific events of possible interest to its readers, like conferences, congresses, symposia, work-shops, courses, etc. Occasionally, special issues of the journal may be devoted to publication of all or selected papers presented at international conferences or other scientific meetings. However, all papers intended for such an issue are subjected to the usual reviewing and acceptance procedure.