Optimization of Sound Absorption and Insulation Performances of a Dual-Cavity Resonant Micro-Perforated Plate

Sound absorption of self-facing natural date palm fibershas been investigated.A single layer sample of the fibers was tested for its sound absorption properties. The sample was then faced with the originally date palm fiber netted structure. Experimental measurements were conducted on the impedance tube at the acoustic lab, Faculty of Engineering, UniversitiKebangsaan Malaysia, to determine the sound absorption coefficient.The single layer was also tested using an aluminum perforated plate, as facing, for comparison purposes.The results show a good improvement in the sound absorption for the self-facing panel for the whole frequency range. However, when using the aluminum perforated panel an improvement in the sound absorption was observed only above 2500 Hz. The effect of introducing air gap thickness was studied. The results show improvement for the sound absorption the low frequency.

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1323 Development of measuring technique and experiment for sound absorption coefficient of perforated plate under parallel flow

The Proceedings of Conference of Kansai Branch ◽

10.1299/jsmekansai.2012.87._13-23_ ◽

2012 ◽

Vol 2012.87 (0) ◽

pp. _13-23_

Author(s):

Nobuo NAMAI ◽

Toshimitsu TANAKA ◽

Takahiro SAKAYORI ◽

Takumi MATSUMURA ◽

Shinichi KINOSHITA ◽

...

Keyword(s):

Absorption Coefficient ◽

Sound Absorption ◽

Perforated Plate ◽

Parallel Flow ◽

Measuring Technique ◽

Sound Absorption Coefficient

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Experimental study on the acoustic field caused by the interference of supersonic jet with a perforated plate—The optical measurement of sound absorption

The Journal of the Acoustical Society of America ◽

10.1121/1.5137387 ◽

2019 ◽

Vol 146 (4) ◽

pp. 3000-3000

Author(s):

Yo Murata ◽

Kaku Murayama ◽

Tatsuya Ishii ◽

Koji Okamoto ◽

Hirofumi Daiguji ◽

...

Keyword(s):

Experimental Study ◽

Acoustic Field ◽

Sound Absorption ◽

Optical Measurement ◽

Supersonic Jet ◽

Perforated Plate

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Sound absorption of a micro-perforated plate backed by a porous material under high sound excitation: measurement and prediction

International Journal of Engineering & Technology ◽

10.14419/ijet.v2i4.1421 ◽

2013 ◽

Vol 2 (4) ◽

pp. 281 ◽

Cited By ~ 8

Author(s):

Rostand Boumda Tayong ◽

Thomas Dupont ◽

Philippe Leclaire

Keyword(s):

Porous Material ◽

Sound Absorption ◽

Perforated Plate ◽

Rigid Wall ◽

Experimental Results ◽

Mean Flow ◽

Sound Levels ◽

Specific Impedance ◽

Air Flow Resistivity ◽

High Sound

The sound absorption coefficient of perforated facings backed by porous materials is studied under high sound intensities in the absence of mean flow. The theoretical considerations are based on the equivalent fluid following the Johnson-Champoux-Allard approach and the use of the transfer matrix method. To take into account the high sound levels effects, the air flow resistivity of each layer is modified following the Forchheimer law. Two specimens of perforated plate are built and tested when backed by a polymeric foam and a fibrous material. A specific impedance tube setup is developed for the measurement of the surface acoustic impedance for sound pressure levels ranging from 90 dB to 150 dB at the surface of the perforated facing. To corroborate the validity of the presented method, two considerations are particularly depicted in the experimental results: first, the case where the perforated facing and the porous material are both directly backed by a rigid wall and the case where there is an air cavity between the porous material and the rigid wall. Good agreement is observed between the simulation and the experimental results.

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On-demand optimize design of sound-absorbing porous material based on multi-population genetic algorithm

e-Polymers ◽

10.1515/epoly-2020-0014 ◽

2020 ◽

Vol 20 (1) ◽

pp. 122-132

Author(s):

Yonghua Wang ◽

Shengfu Liu ◽

Haiquan Wu ◽

Chengchun Zhang ◽

Jinkai Xu ◽

...

Keyword(s):

Genetic Algorithm ◽

Porous Material ◽

High Frequency ◽

Population Genetic ◽

Sound Absorption ◽

Perforated Plate ◽

Noise Spectrum ◽

Absorption Effect ◽

Absorption Performance ◽

Population Genetic Algorithm

AbstractPorous material (PM) shows good sound absorption performance, however, the sound absorbing property of PM with different parameters are greatly different. In order to match the most suitable absorbing materials with the most satisfactory sound-absorbing performance according to the noise spectrum in different practical applications, multi-population genetic algorithm is used in this paper to optimize the parameters of porous sound absorbing structures that are commonly used according to the actual demand of noise reduction and experimental verification. The results shows that the optimization results of multi-population genetic algorithm are obviously better than the standard genetic algorithm in terms of sound absorption performance and sound absorption bandwidth. The average acoustic absorption coefficient of PM can reach above 0.6 in the range of medium frequency, and over 0.8 in the range of high frequency through optimization design. At a mid-to-high frequency environment, the PM has a better sound absorption effect and a wider frequency band than that of micro-perforated plate. However, it has a poor sound absorption effect at low frequency. So it is necessary to select suitable sound absorption material according to the actual noise spectrum.

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A Perforated Plate with Stepwise Apertures for Low Frequency Sound Absorption

Applied Sciences ◽

10.3390/app11136180 ◽

2021 ◽

Vol 11 (13) ◽

pp. 6180

Author(s):

Xin Li ◽

Bilong Liu ◽

Chong Qin

Keyword(s):

3D Printing ◽

Sound Absorption ◽

Numerical Models ◽

Characteristic Impedance ◽

Perforated Plate ◽

Low Frequency ◽

Low Frequencies ◽

Perforated Plates ◽

Absorption Bandwidth ◽

Acoustic Resistance

A perforated plate with stepwise apertures (PPSA) is proposed to improve sound absorption for low frequencies. In contrast with an ordinary perforated plate with insufficient acoustic resistance and small acoustic mass, the perforated plate with stepped holes could match the acoustic resistance of air characteristic impedance and also moderately increase acoustic mass especially at low frequencies. Prototypes made by 3D printing technology are tested in an impedance tube. The measured results agree well with that of prediction through theoretical and numerical models. In addition, an absorber array of perforated plates with stepwise apertures is presented to extend the sound absorption bandwidth due to the introduced multiple local resonances.

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Design of subwavelength broadband hybrid sound absorption structure based on micro-perforated plate and coiled channels

Acta Physica Sinica ◽

10.7498/aps.69.20200368 ◽

2020 ◽

Vol 69 (13) ◽

pp. 134303

Author(s):

Fei Wu ◽

Wei Huang ◽

Wen-Yuan Chen ◽

Yong Xiao ◽

Dian-Long Yu ◽

...

Keyword(s):

Sound Absorption ◽

Perforated Plate

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Measurement of Acoustic Impedance and Sound Absorption Performance of a Perforated Plate with a Backing Cavity at a High Sound Pressure Level

The Proceedings of the Symposium on Environmental Engineering ◽

10.1299/jsmeenv.2016.26.118 ◽

2016 ◽

Vol 2016.26 (0) ◽

pp. 118

Author(s):

Daisuke SHIRAGA ◽

Masaharu NISHIMURA ◽

Tonau NAKAI ◽

Tomonobu GOTO ◽

Shinji AKAMATSU ◽

...

Keyword(s):

Sound Pressure Level ◽

Acoustic Impedance ◽

Sound Absorption ◽

Sound Pressure ◽

Perforated Plate ◽

Pressure Level ◽

Absorption Performance ◽

High Sound

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Research on Numerical Analysis Technique for Sound Fields Including Perforated Plate (3rd Report, Case in Which Vibro-Acoustic Behavior and Non-Linear Sound Absorption of Perforated Plate is Considered)

TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series C ◽

10.1299/kikaic.79.982 ◽

2013 ◽

Vol 79 (800) ◽

pp. 982-990

Author(s):

Kazuki TSUGIHASHI ◽

Toshimitsu TANAKA

Keyword(s):

Numerical Analysis ◽

Sound Absorption ◽

Perforated Plate ◽

Acoustic Behavior ◽

Sound Fields ◽

Analysis Technique ◽

Non Linear

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A nanofibrous acoustic system based on the cavity/membrane resonance principle

Textile Research Journal ◽

10.1177/0040517516685285 ◽

2016 ◽

Vol 88 (6) ◽

pp. 644-653 ◽

Cited By ~ 1

Author(s):

Klara Kalinova

Keyword(s):

Sound Absorption ◽

Perforated Plate ◽

Cavity Resonator ◽

Acoustic Power ◽

Broadband Noise ◽

Sound Waves ◽

Acoustic System ◽

Optimal Arrangement ◽

Final Thickness ◽

Lower Frequencies

Room acoustic solutions are based on measurements of the acoustic power of the room and acoustic elements with different functions (absorption tiles, absorption ceilings, absorption bodies, diffusers, barriers). This work is focused only on absorption elements, with an emphasis on addressing lower frequencies. The goal of this research is achieved by sound absorbing means which contains a cavity resonator with a nanofibrous resonant membrane, which overlaps orifices of the cavity resonator. The design of the material is based on broadband noise. Absorption of lower frequencies is restricted to a certain extent by the final thickness of the acoustic material. A two-microphone impedance tube for determining the sound absorption coefficient was used to measure the limited frequency spectrum 100–1600 Hz. These frequencies, however, cover the area particularly focusing on middle and lower frequencies. The principle of the acoustic system consists in using combination of a cavity resonator, by which the air or other material contained in its cavities is forced into vibration upon impact of sound waves of high frequency, and a nanofibrous resonant membrane, which is forced into vibration upon impact of sound waves of low frequency. The optimal arrangement of holes inside the perforated plate, according to broadband sound absorption, has been found.

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