气固两相流二维分布的后向散射超声模拟研究

IF 0.6 4区 物理与天体物理 Q4 ACOUSTICS
Jinhui Fan, Fei Wang
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引用次数: 1

摘要

气固流动参数的二维分布对于反映工业实际情况具有重要的研究意义。常用的方法是超声波断层扫描法,其中多个探头以不同角度排列,或者测量设备像医学中那样旋转,但在大多数工业情况下,不可能以所有角度安装探头或旋转测量管道。然而,反向散射方法仅使用一个换能器来发送和接收信号,并且仅通过旋转换能器来获得二维信息。超声波在空气中衰减很大,并且衰减随频率变化。因此,COMSOL被用来研究空气中不同半径的粒子对不同频率超声波的反射。研究发现,当超声频率与颗粒半径的乘积约为27.78Hz·m时,反向散射等效电压最大,颗粒浓度为30%时,反向反射最强。模拟结果与Faran后向散射模型吻合较好,可为超声后向散射法测量气固两相流时选择合适的频率和获得浓度提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultrasonic Simulation Research of Two-Dimensional Distribution in Gas-Solid Two-Phase Flow by Backscattering Method
The two-dimensional distribution of gas-solid flow parameters is a great research significance to reflect the actual situation in industry. The commonly used method is the ultrasonic tomography method, in which multiple probes are arranged at various angles, or the measurement device is rotated as that in medicine, but in most industrial situations, it is impossible to install probes at all angles or rotate the measured pipe. The backscattering method, however, uses only one transducer to both transmit and receive signals, and the twodimensional information is obtained by only rotating the transducer. Ultrasound attenuates greatly in the air, and the attenuation changes with frequency. Therefore, COMSOL is used to study the reflection of particles with different radii in the air to ultrasound with various frequencies. It is found that the backscattering equivalent voltage is the largest when the product of ultrasonic frequency and particle radius is about 27.78 Hz ⋅m, and the particle concentration of 30% causes the strongest backscattering. The simulated results are in good agreement with the Faran backscattering model, which can provide references for selecting the appropriate frequency and obtaining the concentration when measuring gas-solid two-phase flow with the ultrasonic backscattering method.
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来源期刊
Archives of Acoustics
Archives of Acoustics 物理-声学
CiteScore
1.80
自引率
11.10%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Archives of Acoustics, the peer-reviewed quarterly journal publishes original research papers from all areas of acoustics like: acoustical measurements and instrumentation, acoustics of musics, acousto-optics, architectural, building and environmental acoustics, bioacoustics, electroacoustics, linear and nonlinear acoustics, noise and vibration, physical and chemical effects of sound, physiological acoustics, psychoacoustics, quantum acoustics, speech processing and communication systems, speech production and perception, transducers, ultrasonics, underwater acoustics.
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