综合建模与声学分析相结合的eVTOL旋翼噪声研究

Chengjian He, J. Baeder, Jeewoong Kim, C. Ware, S. Yang, Y. Jung
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引用次数: 0

摘要

近年来,人们对eVTOL飞行器的兴趣显著增加。大多数eVTOL飞机的开发工作已经解决了传统的性能目标。然而,噪声仍然是一个必须处理的关键方面,因为它对作业有重大影响。利用CFD增强旋翼综合建模与仿真工具,结合声学分析对eVTOL无人机旋翼噪声变化进行了研究,并对实测的eVTOL无人机旋翼噪声数据进行了验证。本文对旋翼/螺旋桨声学特征的变化进行了深入的参数化研究,重点研究了在eVTOL旋翼/螺旋桨运行中经常占主导地位的宽带噪声。参数化研究考察了一系列转子参数的影响,包括转子叶片数、转子固体度、叶尖马赫数、叶片平面(如弦分布)等。研究揭示了eVTOL旋翼的重要声学特性。这项研究的几个发现对于eVTOL旋翼来说是独一无二的,它们为支持低噪音eVTOL旋翼/螺旋桨的设计和开发提供了物理见解。
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eVTOL Rotor Noise Study Using Combined Comprehensive Modeling with Acoustic Analysis
Interest in eVTOL air vehicles has increased significantly in recent years. Most development efforts for eVTOL aircraft have addressed conventional performance objectives. However, the acoustic noise remains a critical aspect that must be dealt with due to its significant impact on operations. This paper summarizes a study of eVTOL rotor acoustic noise variation using a CFD augmented comprehensive rotorcraft modeling and simulation tool combined with acoustic analysis that was validated against measured eVTOL drone rotor noise data. The paper presents a thorough parametric investigation of the variation of the rotor/propeller acoustic signature with emphasis on the broadband noise that often dominates in eVTOL rotor/propeller operation. The parametric study has investigated the effect of a range of rotor parameters, including number of rotor blades, rotor solidity, tip Mach number, blade planform (e.g., chord distribution), etc. The study has revealed important acoustic characteristics of eVTOL rotors. Several findings from the study are fundamentally unique to eVTOL rotors, which provide physical insight into supporting low noise eVTOL rotor/propeller design and development.
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