Litcius/Paper detail

Low-frequency sound attenuation by coiled-up meta-liner with nonuniform cross sections under grazing flow

Hao Wang, Xiangyang Zeng, Shu‐Wei Ren, Dongwen Xue, Zhuohan Li, Haitao Wang, Ye Lei

2024Journal of Applied Physics11 citationsDOIOpen Access PDF

Abstract

We report a kind of coiled-up meta-liners with nonuniform cross sections (CMNC), which can efficiently attenuate low-frequency sound waves under grazing flow with a deep subwavelength thickness (e.g., ∼λ/17 at 500 Hz). At a grazing flow Mach number of 0.26, the average transmission loss of the meta-liner is 12.6 dB at 500–1000 Hz, which is twice as much as that of a double-degree-of-freedom acoustic liner of the same size. Physically, the nonuniform cross-sectional distribution and significant cross-sectional area ratio enhances vortex shedding, thus resulting in severe acoustic energy dissipation. The excellent low-frequency acoustic attenuation performance of CMNC is investigated thoroughly with experimental, theoretical, and numerical methods. This work provides an avenue for low-frequency noise reduction in grazing flow scenarios (e.g., in a high bypass ratio turbofan engine).

Topics & Concepts

AttenuationSound (geography)GrazingAcoustic attenuationAcousticsFlow (mathematics)Materials sciencePhysicsMechanicsOpticsBiologyEcologyAcoustic Wave Phenomena ResearchFluid Dynamics and Vibration AnalysisAerodynamics and Acoustics in Jet Flows