Pusan National University Researchers Propose a Novel Compact Meta-Silencer Design
This meta-silencer design leverages acoustic black hole and rainbow trapping effects to effectively reduce low-frequency noise
Recent advances in acoustic metamaterials utilize the slow-wave effect and have shown promise for reducing low-frequency noise with more compact designs. Notable among them are devices capable of generating acoustic black holes (ABH) continuously slowing down sound waves until their velocities reach zero. Another alternative is acoustic rainbow trapping (RT), where sound waves are confined to specific paths within a structure, separating and trapping different frequencies at distinct locations.
Leveraging these effects, a research team from Pusan National University in
The meta-silencer design features four resonators placed in parallel around a cubical waveguide. Each resonator consists of three sections: an internal cavity, a multi-slit, and an inlet. The multi-slit featured slits placed at the top and bottom of the resonator in a quadratic, horn-like profile, widening at the inlet and gradually narrowing towards the cavity, progressively changing the acoustic impedance, facilitating the ABH effect. Additionally, as frequency increases, the multi-slits act as independent resonators based on frequency, giving rise to the RT effect. Since the RT effect shows an inverse relationship between slit length and frequency, the researchers implemented a coiled-up slit design to achieve efficient RT at low frequencies.
The researchers developed three different resonator designs categorized by slit length, and evaluated their performance using simulations and experimental validation. Model 1 featured straight slits, while Model 2 had a top slit 1.3 times longer and a bottom slit 0.7 times shorter than those of Model 1. Model 3 incorporated a coiled-up slit structure from the Model 2's structure.
Results showed that the meta-silencer operated in three main sound-blocking modes: a foundational plane wave mode, the multiple-slit localized mode induced by the ABH effect, and the single-slit localized mode generated by the RT effect. Incorporation of coiled-up slits in Model 3 enhanced its performance by shifting the frequency at which sound wave velocities reached zero to 728 Hz. Additionally, it achieved an average experimental sound transmission loss (STL) of 6.73 decibels (dB) across a broad 200–1800 Hertz (Hz) band and an absorption coefficient of 0.49. The researchers also designed a dual-series array meta-silencer, comprising two meta-silencers arranged back-to-back, which nearly doubled the average STL to 13.07 dB and the maximum absorption coefficient to 0.9.
"Unlike traditional large-scale silencers, our compact meta-silencer can be directly integrated into miniaturized machines and narrow spaces, providing targeted low-frequency noise reduction at the source. This technology can improve the quality of life by reducing noise in urban areas, aviation, and industry. We hope to bring this technology to market within 2 to 3 years, with prototype development and testing currently in progress," concludes a hopeful
Reference
Title of original paper: Enhanced acoustic attenuation in a coiled meta-silencer: Broadband low-frequency noise control through rainbow trapping
Journal: Mechanical Systems and Signal Processing
DOI: 10.1016/j.ymssp.2024.111744
About the institute
Website: https://www.pusan.ac.kr/eng/Main.do
Contact:
82 51 510 7928
[email protected]
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SOURCE Pusan National University
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