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液面位置对流-固交界面上伪瑞利波幅度影响的数值模拟 被引量:1

Numerical simulation of the impact induced by liquid level on the amplitude of pseudo-Rayleigh waves at the fluid-solid interface
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摘要 研究了流体半空间中存在气-液交界面并且其位置发生改变时,流-固交界面上伪瑞利波的传播特性和幅度响应特征。借助有限差分的方法,实现了对不同气-液交界面位置时振动方向垂直于流-固交界面的脉冲面源所激发表面波声场的数值模拟,分别讨论了气-液交界面自身的散射作用与伪瑞利波传播过程中的能量泄漏对伪瑞利波幅度的影响。数值模拟结果表明:气-液交界面自身对伪瑞利波的散射作用对伪瑞利波幅度仅有极微小的影响,而能量泄漏才是引起伪瑞利波衰减的决定性因素;随着气-液交界面位置的升高,脉冲伪瑞利波幅度呈指数规律下降,与此同时主频向低频偏移。所得研究结果可以发展为一种利用伪瑞利波幅度进行液位检测的可靠方法。 A gas-liquid interface and its changes in position have impacts on the propagation and amplitude of pseudo- Rayleigh waves at the fluid-solid interface, which is studied in this paper. A numerical simulation (finite-difference method) is performed to model the surface wave of different gas-liquid interface position generated by a near-surface impulsive plane source in the solid with vibration direction perpendicular to the fluid-solid interface, through which the influence of scattering brought by the gas-liquid interface itself and the energy leak in the propagation process is discussed. The simulation result shows that, the influence of the scattering effect of gas-liquid interface itself very slightly contributes to the amplitude of pseudo-Rayleigh waves, and the predominant cause of attenuation is the energy leak; with the gas-liquid interface position increases, the amplitude of pseudo-Rayleigh wave pulse declines exponentially and its central frequency becomes lower. This result can be developed into a method for liquid level detection using the amplitude of pseudo-Rayleigh waves.
出处 《声学学报》 EI CSCD 北大核心 2013年第6期687-693,共7页 Acta Acustica
基金 国家自然科学基金(11204380 11134011 61102102 11374371) 国家油气重大科技专项(2011ZX05020-009) 中国石油大学(北京)基金(KYJJ2012-05-13) 中国石油天然气集团公司项目(2008A-2702 2011A-3903)资助
关键词 伪瑞利波 数值模拟 液面位置 交界面 幅度 对流 界面位置 能量泄漏 Computer simulation Gases Liquids Numerical models Rayleigh waves
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参考文献14

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  • 2Scholte J G. On the true and pseudo-Rayleigh waves. Proc. Kon. Nederl. Akad. Wet., 1949; 52:652-653.
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同被引文献15

  • 1朱哲民,李剑,邹薇.有液层负载时薄板中类Lamb波的传播[J].声学学报,1996,21(2):174-181. 被引量:17
  • 2Rayleigh L. On waves propagating along the plane surface of an elastic solid. Pro. London Math. Sot., 1885; 1(1): 4-11.
  • 3Scholte J G. On the true and pseudo-Rayleigh waves. Proc. Kon. Nederl. Akad. Wet., 1949(52): 652-653.
  • 4Viktorov I A. Rayleigh and Lamb waves, Physical theory and application. New York: Plenum, 1967.
  • 5Viktorov I A. Calculation of the phase velocity of surface waves on the boundary of a solid half-space with a liquid layer. Sov. Phys. Acoust., 1977(23): 541- 542.
  • 6Glorieux C, Van de Rostyne K. On the character of acous- tic waves at the interface between hard and soft solids and liquids. J. Acoust. Soc. Am., 2001; 110(3): 1299-1306.
  • 7de Hoop A T, van der Hijden J H M T. Generation of acoustic waves by an impulsive line source in a fluid/solid configuration with a plane boundary. J. Acoust. Soc. Am., 1983; 74(1): 333 -342.
  • 8de Hoop A T, van der Hijden J H M T. Generation of acoustic waves by an impulsive point source in a fluid/solid configuration with a plane boundary. J. Acoust. Soc. Am., 1984; 75(6): 1709-1715.
  • 9de Hoop A T, van der Hijden J H M T. Seismic waves gen- erated by an impulsive point source in a solid/fluid con- figuration with a plane boundry. Geophysics, 1985; :0(7): 1083- 1090.
  • 10Galipeau D W et al. A study of condensation and dew point using a SAW sensor. Sensors :z Actuators 17: Chem-ical, 1995; 25(1): 696-700.

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