水下低频振荡涡流场声散射调制机理及特性研究

IF 0.8 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
Jing Chen-Xuan, Shi Sheng-Guo, Yang De-Sen, Zhang Jiang-Yi, Li Song
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引用次数: 0

摘要

水下涡旋流场对声波的散射是声波在复杂流场中传播的基本问题,在水下目标探测和流场声成像中具有重要意义。建立了水下低频振荡旋涡流场声散射调制问题的理论分析模型和数值计算方法,探讨了声散射调制声场的产生机理和时频空特性。首先,在运动介质波动方程的基础上,在一阶近似下,引入势函数,将波动方程分解为流声耦合项和非流声耦合项,并对流声耦合项进行频域分析,揭示水下振荡涡流场;其次,采用不连续伽辽金数值计算方法求解运动介质的波动方程,数值模拟声音在水下低频振荡涡旋流场中的传播过程。在低马赫数条件下,分析了不同入射声频、旋涡流场振荡频率和旋涡核尺度对旋涡流场散射调制声场时频和空间特性的影响,并采用理论分析模型对这些特性进行了解释。研究结果表明:在低马赫数条件下,振荡涡旋流场对声波的散射可以产生包含振荡频侧调频谐波的散射调制声场。散射声压振幅随时间周期性变化,前向散射比后向散射强得多。基频散射调制比倍频散射调制强得多。随着入射声波频率和涡核尺度的增加,散射调制声场的强度增大,总散射声场的空间分布具有对称性和明显的主瓣,主瓣逐渐锐化,主瓣的方位角接近入射波的传播方向。当频率比远大于1时,旋涡流场振荡频率对散射调制声场声场强度的空间分布影响不大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on mechanism and characteristics of sound scattering modulation by underwater low frequency oscillating vortex flow field
The scattering of sound waves by underwater vortex flow filed is the basic problem of sound waves propagating in complex flow fields, which has important significance in underwater target detection and sound imaging of flow field. The theoretical analysis model and numerical calculation method are established for the problem of sound scattering modulation in underwater low frequency oscillating vortex flow fields, and the generation mechanism and time frequency and space characteristics of the scattering modulation sound field are explored. Firstly, based on the wave equation of the moving medium, under the first-order approximation, the wave equation is decomposed into the flow-sound coupling term and the non flow-sound coupling term by introducing a potential function, and the flow-sound coupling term is analyzed in the frequency domain, revealing the underwater oscillating vortex flow field. Secondly, the discontinuous Galerkin numerical calculation method is used to solve the wave equation of the moving medium, and the sound propagation process in the underwater low frequency oscillating vortex flow field is numerically simulated. Under the condition of low Mach number, the effects of different incident sound frequency, the oscillation frequency of the vortex flow field and the scale of the vortex core on the time-frequency and space characteristics of the scattering modulating sound fields of vortex flow field are analyzed, and theoretical analysis model is used to explain the characteristics.The research results show that: under the condition of low Mach number, the scattering of sound wave by oscillating vortex flow field can produce a scattering modulated sound field containing the harmonic of oscillating frequency side frequency modulation. The amplitude of the scattered sound pressure changes periodically with time, and the forward scattering is much stronger than the backward scattering. The fundamental frequency scattering modulation is much stronger than the frequency doubling scattering modulation. With the increase of the frequency of the incident sound wave and the scale of the vortex core, the intensity of the scattering modulating sound field increases, and the spatial distribution of the total scattering sound field has symmetry and an obvious main lobe, the main lobe is gradually sharpened, the azimuth angle of the main lobe is close to the propagation direction of the incident wave. When the frequency ratio is much greater than 1, the vortex flow field oscillation frequency has little effect on the spatial distribution of the sound field intensity of scattering modulating sound field.
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来源期刊
物理学报
物理学报 物理-物理:综合
CiteScore
1.70
自引率
30.00%
发文量
31245
审稿时长
1.9 months
期刊介绍: Acta Physica Sinica (Acta Phys. Sin.) is supervised by Chinese Academy of Sciences and sponsored by Chinese Physical Society and Institute of Physics, Chinese Academy of Sciences. Published by Chinese Physical Society and launched in 1933, it is a semimonthly journal with about 40 articles per issue. It publishes original and top quality research papers, rapid communications and reviews in all branches of physics in Chinese. Acta Phys. Sin. enjoys high reputation among Chinese physics journals and plays a key role in bridging China and rest of the world in physics research. Specific areas of interest include: Condensed matter and materials physics; Atomic, molecular, and optical physics; Statistical, nonlinear, and soft matter physics; Plasma physics; Interdisciplinary physics.
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