Design and demonstration of composite mufflers based on dissipative and reactive units

Quanquan Shi; Yuzhen Yang; Zhongjian Mei; Yuanyan Lin; Xingyun Li; Pengyi Tian; Peng Kong; Han Jia; Jun Yang; Ke Deng

doi:10.1088/2631-8695/ad03ae

Design and demonstration of composite mufflers based on dissipative and reactive units

Quanquan Shi, Yuzhen Yang^*, Zhongjian Mei, Yuanyan Lin, Xingyun Li, Pengyi Tian, Peng Kong, Han Jia, Jun Yang, Ke Deng

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

We have proposed and validated a design of a composite muffler. By a combination of dissipative and reactive units with different operating mechanisms, the advantages of both structures are utilized to achieve high transmission loss (TL) from low to high frequency in the ventilation duct system. A dissipative muffler composed of porous sound absorbing materials (PSAM) is chosen for noise attenuation above 1000 Hz, and a reactive muffler composed of Helmholtz resonators is used to reduce the noise below 1000 Hz. The combination of the two can achieve a TL above 20 dB in the broadband range of 244-1600 Hz and up to 30 dB in the vast majority of the frequency band, demonstrating excellent noise reduction effect. The proposed composite muffler has great advantages in broadband noise reduction for ventilation systems.

Original language	English
Article number	045029
Journal	Engineering Research Express
Volume	5
Issue number	4
DOIs	https://doi.org/10.1088/2631-8695/ad03ae
Publication status	Published - Dec 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 IOP Publishing Ltd

ASJC Scopus Subject Areas

General Engineering

Keywords

composite muffler
dissipative unit
reactive unit

Access to Document

10.1088/2631-8695/ad03ae

Cite this

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title = "Design and demonstration of composite mufflers based on dissipative and reactive units",

abstract = "We have proposed and validated a design of a composite muffler. By a combination of dissipative and reactive units with different operating mechanisms, the advantages of both structures are utilized to achieve high transmission loss (TL) from low to high frequency in the ventilation duct system. A dissipative muffler composed of porous sound absorbing materials (PSAM) is chosen for noise attenuation above 1000 Hz, and a reactive muffler composed of Helmholtz resonators is used to reduce the noise below 1000 Hz. The combination of the two can achieve a TL above 20 dB in the broadband range of 244-1600 Hz and up to 30 dB in the vast majority of the frequency band, demonstrating excellent noise reduction effect. The proposed composite muffler has great advantages in broadband noise reduction for ventilation systems.",

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T1 - Design and demonstration of composite mufflers based on dissipative and reactive units

AU - Shi, Quanquan

AU - Yang, Yuzhen

AU - Mei, Zhongjian

AU - Lin, Yuanyan

AU - Li, Xingyun

AU - Tian, Pengyi

AU - Kong, Peng

AU - Jia, Han

AU - Yang, Jun

AU - Deng, Ke

PY - 2023/12

Y1 - 2023/12

N2 - We have proposed and validated a design of a composite muffler. By a combination of dissipative and reactive units with different operating mechanisms, the advantages of both structures are utilized to achieve high transmission loss (TL) from low to high frequency in the ventilation duct system. A dissipative muffler composed of porous sound absorbing materials (PSAM) is chosen for noise attenuation above 1000 Hz, and a reactive muffler composed of Helmholtz resonators is used to reduce the noise below 1000 Hz. The combination of the two can achieve a TL above 20 dB in the broadband range of 244-1600 Hz and up to 30 dB in the vast majority of the frequency band, demonstrating excellent noise reduction effect. The proposed composite muffler has great advantages in broadband noise reduction for ventilation systems.

AB - We have proposed and validated a design of a composite muffler. By a combination of dissipative and reactive units with different operating mechanisms, the advantages of both structures are utilized to achieve high transmission loss (TL) from low to high frequency in the ventilation duct system. A dissipative muffler composed of porous sound absorbing materials (PSAM) is chosen for noise attenuation above 1000 Hz, and a reactive muffler composed of Helmholtz resonators is used to reduce the noise below 1000 Hz. The combination of the two can achieve a TL above 20 dB in the broadband range of 244-1600 Hz and up to 30 dB in the vast majority of the frequency band, demonstrating excellent noise reduction effect. The proposed composite muffler has great advantages in broadband noise reduction for ventilation systems.

KW - composite muffler

KW - dissipative unit

KW - reactive unit

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Design and demonstration of composite mufflers based on dissipative and reactive units

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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