AN INVESTIGATION OF THE NOISE ABSORPTION POTENTIAL OF A SIX SELECTED GRASS SPECIES

Journal of Applied Life Sciences and Environment Pub Date : 2022-07-25 DOI:10.46909/journalalse-2021-037

Nalin Dhanushka Amarasingha, J. Bodhika, W. Dharmaratna, L. Jayatissa

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Abstract

Grass has a high leaf density and requires minimum space to grow. This experiment was designed to determine the sound absorption behaviour of six grass species (Zoysia matrella (L) Merr., Stenotaphrum dimidiatum(L.) Brongn, Panicum repens (L.), Eleusine indica (L.) Gaertn., Axonopus compressus (Sw) P. Beauv, and Ischaemum sp.) for their possible use as noise screens. The sound absorption of each morphological leaf structure was studied. For Sound Absorption Coefficients (SAC) (α) studies, the reverberation room method under ISO 345:2003 standards was followed. A B&K dodecahedron Omni-directional speaker, power amplifier, and 2250L handheld analyser were used for reverberation time and RT60 measurements. Microscopic images of grass leaves were analysed using ImageJ software. This study revealed that grasses with the highest and lowest SAC for higher noise frequencies (> 1500 Hz) are S. dimidiatum Brongn and A. compressus, respectively. The SAC of S. dimidiatum Brongn positively correlated with noise frequency. In general, the correlation of SAC (α) with noise frequency (f) is in the form of log10α = a1log10f + b1 where a1 and b1 are grass type-dependent constants. The morphological parameters like total leaf area, total sample area, plant height, and sample dry weight strongly correlated with the SAC. But leaf thickness, length, width, surface area, and the weight of the sample poorly correlated with SAC in the frequency range.

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六种草的噪声吸收电位的研究

草有很高的叶片密度，需要最小的空间来生长。以结缕草(Zoysia matrella, L)为研究对象，对6种草的吸声特性进行了研究。(1);Brongn，金合欢(L.)，金合欢(L.)Gaertn。例如，Axonopus compressus (Sw) P. Beauv和Ischaemum sp.)，因为它们可能用作噪音屏障。研究了叶片各形态结构的吸声特性。对于吸声系数(SAC) (α)的研究，采用ISO 345:2003标准下的混响室法。使用B&K十二面体全向扬声器，功率放大器和2250L手持式分析仪进行混响时间和RT60测量。利用ImageJ软件对草叶显微图像进行分析。结果表明，在较高的噪声频率(> 1500 Hz)下，草的SAC最高，草的SAC最低，草的SAC最高，草的SAC最低。双翅草的SAC与噪声频率呈正相关。一般情况下，SAC (α)与噪声频率(f)的相关关系为log10α = a1log10f + b1，其中a1和b1为草类相关常数。总叶面积、总样面积、株高、干重等形态参数与SAC呈极显著相关。但叶片厚度、长度、宽度、表面积和样品重量在频率范围内与SAC相关性较差。

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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Journal of Applied Life Sciences and Environment

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