Enhanced wideband low-frequency sound absorption of a single-layer multiple parallel-arranged inhomogeneous microperforated panel absorber

IF 1.7 4区 物理与天体物理 Acoustics Australia Pub Date : 2021-08-26 DOI:10.1007/s40857-021-00252-3
Faisal Rafique, Jiu Hui Wu, Syed Murawat Abbas Naqvi, Fuyin Ma
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引用次数: 5

Abstract

A single layer of four parallel-arranged inhomogeneous microperforated panels (iMPP) absorber is proposed to achieve low-frequency sound absorption and wider frequency bandwidth. The hole diameter of the four parallel-arranged iMPP is set to be equal to or less than 1 mm. The theoretical formula for calculating the absorption coefficient under normal incident sound is established based on an electrical equivalent circuit model (ECM). The parametric study has been performed on the MATLAB software, and the expected results are obtained. The results indicate that the proposed model can produce a wider absorption bandwidth of 195–455 Hz in the low-frequency region with an average absorption coefficient of more than 90% (α = 0.91). To achieve the desired effect, the absorption coefficient and the bandwidth can be tuned by adjusting the aperture size, perforation ratio, thickness of iMPP with depth and width of the back cavity. Also, it is found that iMPP can produce wider bandgaps with good absorption peaks in the low-frequency region by designing sub-MPP of smaller hole diameter, large perforation ratio, and with large cavity depths and the sub-MPP of large hole diameter, small perforation ratio, and with short cavity depths. The finite element method has been employed on COMSOL Multiphysics 5.5a to simulate the acoustic absorption performance of the model and compared with the ECM-based predicted and square impedance tube-based experimental results. Compared with other homogeneous MPPs of different arrangements, this absorber provides exceptional absorption performance in a low-frequency range due to its lightweight structure, and convenient manufacturing availability, this enhanced form of iMPP absorber has great potential in acoustics and noise control applications.

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单层多层并联非均匀微孔板吸声器的宽带低频吸声性能研究
提出了一种单层四平行排列的非均匀微穿孔板(iMPP)吸声器,以实现低频吸声和更宽的频带。四个平行布置的iMPP的孔径被设置为等于或小于1mm。基于等效电路模型,建立了正常入射声下吸声系数的理论计算公式。在MATLAB软件上进行了参数研究,得到了预期的结果。结果表明,该模型在低频区可以产生195–455 Hz的较宽吸收带宽,平均吸收系数超过90%(α = 0.91)。为了获得期望的效果,可以通过调节iMPP的孔径大小、穿孔率、厚度以及背腔的深度和宽度来调节吸收系数和带宽。此外,研究发现,通过设计较小孔径、较大穿孔率和较大腔深的子MPP和较大孔径、较小穿孔率和较短腔深的亚MPP,iMPP可以在低频区产生具有良好吸收峰的较宽带隙。在COMSOL Multiphysics 5.5a上采用有限元方法模拟了该模型的吸声性能,并与基于ECM的预测和基于方阻抗管的实验结果进行了比较。与其他不同布置的同质MPP相比,这种吸收器由于其轻质结构和方便的制造可用性,在低频范围内提供了卓越的吸收性能,这种增强形式的iMPP吸收器在声学和噪声控制应用中具有巨大潜力。
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来源期刊
Acoustics Australia
Acoustics Australia ACOUSTICS-
自引率
5.90%
发文量
24
期刊介绍: Acoustics Australia, the journal of the Australian Acoustical Society, has been publishing high quality research and technical papers in all areas of acoustics since commencement in 1972. The target audience for the journal includes both researchers and practitioners. It aims to publish papers and technical notes that are relevant to current acoustics and of interest to members of the Society. These include but are not limited to: Architectural and Building Acoustics, Environmental Noise, Underwater Acoustics, Engineering Noise and Vibration Control, Occupational Noise Management, Hearing, Musical Acoustics.
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