DOI码：10.1016/j.jsv.2024.118591
发表刊物：Journal of Sound and Vibration
摘要：Sheared flow can profoundly influence the aeroacoustic performance of near-wall structures like metasurfaces on moving vehicles. In this work, a refractive generalized Snell’s law is developed by combining Snell’s law with the generalized Snell’s law to manipulate anomalous reflections in an idealized sheared flow, comprising a uniform flow region and a stationary air region with velocity and temperature gradients. Theoretical analysis and numerical simulations of planar wave reflection by metasurface impedance under non-isothermal sheared flows are conducted, yielding favorable predictions of the zone of silence, as well as anomalous and total reflection behaviors. The total reflection between the shear layer and the metasurface is analyzed with the objective of confining incident wave below the shear layer. Remarkably, a specific configuration of hot-sheared flow and metasurface length can achieve total absorption over a range of incident wave angles from 0° to almost 90°. Moreover, the refractive generalized Snell's law, extended to account for directional deflection induced by flow convection, is utilized to regulate sound beam reflection, resulting in satisfactory outcomes under sheared conditions. This study offers a theoretical framework for wave control under non-isothermal and sheared flow conditions, which cannot be resolved by the traditional generalized Snell's law, and can be implemented in the design of metasurfaces for moving applications.
合写作者：Peng Zhou
第一作者：Lican Wang
论文类型：期刊论文
通讯作者：Renhao Qu, Xin Zhang
学科门类：工学
一级学科：航空宇航科学与技术
文献类型：J
卷号：590
期号：118591
是否译文：否
发表时间：2024-11-10
收录刊物：SCI