Corrected Statistical Energy Analysis Model in a Non-Reverberant Acoustic Space

IF 0.9 Q4 ACOUSTICS Sound and Vibration Pub Date : 2021-01-01 DOI:10.32604/sv.2021.015938
Al Munawir, A. Putra, I. Prasetiyo, Wan Mohd Farid Wan Mohamad, S. Herawan
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Abstract

Statistical Energy Analysis (SEA) is a well-known method to analyze the flow of acoustic and vibration energy in a complex structure. This study investigates the application of the corrected SEA model in a non-reverberant acoustic space where the direct field component from the sound source dominates the total sound field rather than a diffuse field in a reverberant space which the classical SEA model assumption is based on. A corrected SEA model is proposed where the direct field component in the energy is removed and the power injected in the subsystem considers only the remaining power after the loss at first reflection. Measurement was conducted in a box divided into two rooms separated by a partition with an opening where the condition of reverberant and non-reverberant can conveniently be controlled. In the case of a non-reverberant space where acoustic material was installed inside the wall of the experimental box, the signals are corrected by eliminating the direct field component in the measured impulse response. Using the corrected SEA model, comparison of the coupling loss factor (CLF) and damping loss factor (DLF) with the theory shows good agreement.
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非混响声学空间中修正的统计能量分析模型
统计能量分析(SEA)是一种众所周知的分析复杂结构中声波和振动能量流动的方法。本文研究了修正SEA模型在非混响声空间中的应用,在非混响声空间中,来自声源的直接场分量占总声场的主导地位,而不是基于经典SEA模型假设的混响空间中的漫射场。提出了一种修正的SEA模型,去掉能量中的直接场分量,注入子系统的功率只考虑第一次反射损耗后的剩余功率。测量是在一个盒子里进行的,盒子被分成两个房间,房间之间有一个开口的隔板,可以方便地控制混响和非混响的情况。在非混响空间的情况下,声学材料安装在实验箱的内壁内,通过消除测量脉冲响应中的直接场分量来校正信号。利用修正后的SEA模型,将耦合损耗因子(CLF)和阻尼损耗因子(DLF)与理论进行了比较,结果表明两者吻合较好。
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来源期刊
Sound and Vibration
Sound and Vibration 物理-工程:机械
CiteScore
1.50
自引率
33.30%
发文量
33
审稿时长
>12 weeks
期刊介绍: Sound & Vibration is a journal intended for individuals with broad-based interests in noise and vibration, dynamic measurements, structural analysis, computer-aided engineering, machinery reliability, and dynamic testing. The journal strives to publish referred papers reflecting the interests of research and practical engineering on any aspects of sound and vibration. Of particular interest are papers that report analytical, numerical and experimental methods of more relevance to practical applications. Papers are sought that contribute to the following general topics: -broad-based interests in noise and vibration- dynamic measurements- structural analysis- computer-aided engineering- machinery reliability- dynamic testing
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