A Helmholtz Resonator-Based Acoustic Metamaterial for Power Transformer Noise Control

IF 1.7 4区 物理与天体物理 Acoustics Australia Pub Date : 2021-10-07 DOI:10.1007/s40857-021-00256-z
Naser Sharafkhani
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引用次数: 6

Abstract

Controlling low-frequency noise propagated by power transformers in urban and industrial areas poses a technical challenge in the design of sound absorbers. Although existing acoustic metamaterials are largely successful as single-band absorbers, they are far from optimal approaches to absorb power transformer noise. As a common method of providing multi-band absorbers, the parallel configuration of multiple individual units leads to the coupling effect, resulting in the absorption coefficient drop. In this research, a novel design is proposed to convert a single-band Helmholtz resonator-based sound absorber into a multi-band absorber while maintaining its thickness at 55.1 mm, ~ 1/62 of 100 Hz noise wavelength. The proposed design offers simultaneous perfect absorptions at 100, 200 and 300 Hz frequencies as main components of power transformer noise. Design validation is carried out using finite element modelling in COMSOL Multiphysics and the experimental analyses on the 3D-printed sample.

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基于亥姆霍兹谐振腔的电力变压器噪声控制声学超材料
控制城市和工业地区电力变压器传播的低频噪声是吸声器设计中的一个技术难题。虽然现有的声学超材料在单波段吸收方面取得了很大的成功,但它们远不是吸收电力变压器噪声的最佳方法。作为提供多波段吸收器的常用方法,多个独立单元的并联配置导致耦合效应,导致吸收系数下降。在本研究中,提出了一种新的设计,将基于亥姆霍兹谐振器的单波段吸声器转换为多波段吸声器,同时保持其厚度为55.1 mm,约为100 Hz噪声波长的1/62。所提出的设计可以同时完美地吸收100hz、200hz和300hz频率作为电力变压器噪声的主要成分。利用COMSOL Multiphysics中的有限元建模和3d打印样品的实验分析对设计进行了验证。
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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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