Tehran University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share By
Study of the Effect of Shape on Acoustic Performance of Micro Perforated Absorbent at Low Frequencies



Hashemi Z1 ; Monazzam MR2
Authors

Source: Journal of Health and Safety at Work Published:2022

Abstract

Introduction: Micro-perforated absorbents are one of the structures that are widely used nowadays. The sound absorption mechanism is performed by viscous energy losses in the cavities on the plate. In this study, the acoustic properties of non-flat perforated panels in oblique angle was investigated in numerical method. Material and Methods: This paper examined the effect of the surface shape on the micro perforated absorber performance at low frequencies (less than 500 Hz). The three-dimensional finite element method was used to predict the absorption coefficient of this group of adsorbents. Also, the results obtained from the shaped absorbents were compared with the flat micro perforated ones. After validating the numerical results, six different designs were defined as the surface shape of the micro perforated plates in the COMSOL Multiphasic, Ver. 5.3a software Results: The results reflected the fact that the factor of the surface shape can be used as a contributing factor in lower frequencies. In general, the dented or concave shapes provide better outcomes than other flat designs and shapes and the convex or outward shapes bring the weakest results. Conclusion: To explain this function, shaping creates a phase difference and angling the sound wave and creates a variable depth behind the micro-perforated plate. It also influences the reflection process which affect the absorption coefficient. © 2022 The Authors.
Related Docs
View other Related Docs
1. Investigation of the Effect of Non-Flat Surfaces on the Performance of Perforated Acoustic Absorber, Archives of Acoustics (2023)
2. Estimation of Sound Absorption Performance of Complex Perforated Panel Absorbers by Numerical Finite Element Method and Examinining the Role of Different Layouts Behind It, Fluctuation and Noise Letters (2019)
3. Estimation of Sound Absorption Behavior of Combined Panels Comprising Kenaf Fibers and Micro-Perforated Plates Below 2500 Hertz, Journal of Health and Safety at Work (2022)
Experts (# of related papers)
Mohammad Reza Monazzam-Esmaeelpour (5)
Other Related Docs
4. Optimizing Microperforated Panel Sound Absorbers Using Response Surface Methodology: Measurement, Modeling, and Performance Evaluation, Journal of Health and Safety at Work (2024)
5. Optimization and Comparative Analysis of Micro-Perforated Panel Sound Absorbers: A Study on Structures and Performance Enhancement, Measurement: Journal of the International Measurement Confederation (2024)
6. Determining the Optimal Mesh for Making Acoustic Absorber From Arundo Donax Reed Stem, Journal of Health and Safety at Work (2023)
7. Providing an Optimal Porous Absorbent Pattern to Reduce Mid to Low-Frequency Sounds, Journal of Environmental Health Science and Engineering (2018)
8. Impact of Layout Sequence of the Natural and Synthetic Adsorbents in Double-Layered Composites on Improving the Natural Fiber Acoustic Performance Using the Numerical Finite Element Method, Journal of Health and Safety at Work (2021)
9. Numerical Optimization of Microperforated Panel Absorbers: The Impact of Series-Parallel Configuration, Air Gap, and Porous Materials on the Sound Absorption Bandwidth, Journal of Health and Safety at Work (2024)
10. Enhancing Sound Absorption in Micro-Perforated Panel and Porous Material Composite in Low Frequencies: A Numerical Study Using Fem, Sound and Vibration (2024)
11. Use of Date Palm Waste Fibers As Sound Absorption Material, Journal of Building Engineering (2021)
12. Sound Absorption and Thermal Insulation Performance of Sustainable Fruit Stone Panels, Applied Acoustics (2024)
13. Pistachio Shell Waste As a Sustainable Sound Absorber: An Experimental and Empirical Investigation, International Journal of Environmental Science and Technology (2024)
14. Enhancing High-Frequency Bandwidth in Mpp-Porous Material Composite Absorbers: A Numerical Simulation Approach for Optimal Parameter Selection, Journal of Occupational Health and Epidemiology (2024)
15. Analytical Study on the Rate of Sound Transmission Loss in Single Row Honeycomb Sandwich Panel Using a Numerical Method, Sound and Vibration (2020)
16. Wood Chip Sound Absorbers: Measurements and Models, Applied Acoustics (2024)
17. Mathematical and Experimental Investigation of Sound Absorption Behavior of Sustainable Kenaf Fiber at Low Frequency, International Journal of Environmental Science and Technology (2021)
18. Comprehensive Analysis of Acoustic Properties of Cellulose Nano Fibers Absorbers: Experimental and Fem-Based Mathematical Modeling Evaluation, International Journal of Environmental Science and Technology (2025)
19. A Novel Acoustic Micro-Perforated Panel (Mpp) Based on Sugarcane Fibers and Bagasse, Journal of Materials Science: Materials in Engineering (2024)