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Repository of Research and Investigative Information

Baqiyatallah University of Medical Sciences

Mathematical and experimental investigation of sound absorption behavior of sustainable kenaf fiber at low frequency

(2021) Mathematical and experimental investigation of sound absorption behavior of sustainable kenaf fiber at low frequency. International Journal of Environmental Science and Technology. pp. 2765-2780. ISSN 17351472 (ISSN)

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Abstract

Natural materials are being employed as an option for controlling noise pollution, mainly via sound absorption mechanism. Specifically, natural fibers have been selected for use since they are environmentally friendly as well as easily and abundantly available. This paper discusses the mathematical and experimental examination of the sound absorption behavior of sustainable kenaf fiber at low-frequency range using the Delany–Bazley model (D–B model) as well as Nelder–Mead method and comparing the results with experimental findings. For this reason, we prepared S1-S16 samples of natural kenaf fibers at different thicknesses and bulk densities to measure the values of airflow resistivity and sound absorption coefficients. The predicted values obtained from both the D–B model and best-fit inverse approach presented by the Nelder–Mead method compared with experimental data measured using impedance tube. Accordingly, by applying a least-square fit procedure, the values that have best predicted both the impedance test and the propagation constant laws were evaluated. The inverse laws approach applied to determine the different physical parameters such as porosity, thickness, airflow resistivity as well as predicting the absorption performance of the kenaf fiber at low frequency ranges. © 2020, Islamic Azad University (IAU).

Item Type: Article
Keywords: Best-fit inverse Empirical model Kenaf fiber Sound absorption coefficient Waste recycling Acoustic impedance measurement Hemp Inverse problems Kenaf fibers Noise pollution Sound insulating materials Absorption performance Airflow resistivity Experimental examination Experimental investigations Low frequency range Physical parameters Propagation constant Sound absorption coefficients Acoustic wave absorption
Page Range: pp. 2765-2780
Journal or Publication Title: International Journal of Environmental Science and Technology
Journal Index: Scopus
Volume: 18
Number: 9
Identification Number: https://doi.org/10.1007/s13762-020-03024-0
ISSN: 17351472 (ISSN)
Depositing User: مهندس مهدی شریفی
URI: http://eprints.bmsu.ac.ir/id/eprint/9219

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