Particulate aggregation through a modulated annular one-dimensional acoustic field at resonant frequencies  被引量：1

作　　者：Zhenghui Qiao Xiaojun Pan Shaohua Liang Xiaolong Bi Juan Wang Wei Xie Kang Wang Yanwen Wang Jun Fang Xuefei Zhu Shaoxin Sun Shaohui Li 

机构地区：[1]College of Energy and Power Engineering,Nanjing Institute of Technology,Nanjing 211167,China [2]Key Laboratory of Energy Thermal Conversion and Control of Ministry of Education,School of Energy and Environment,Southeast University,Nanjing 210096,China

出　　处：《Particuology》2021年第4期82-94,共13页颗粒学报（英文版）

基　　金：This paper was supported by the Natural Science Foundationof Jjiangsu Province of China(Grant No.BK20191019);the Natural Science Research Project in Colleges and Universities in Jiangsu Province of China(Grant No.19KJB470022);the Scientific Research Startup Foundation funding of High-level Introduction Talents of Nanjing Institute of Technology(Grant No.YKJ201912);the Open Fund Project of the Key Laboratory of Energy Thermal Conversion and Control of Ministry of Education of Southeast University.

摘　　要：The visualization and analysis of a novel acoustic-particulate system is the objective of this study. The system is composed of rice-husk fired smoke particulates (36.7 nm-840 μm) and one annular resonant circular-tube waveguide contrarily coupled with two sound sources. The collective interaction behavior process of smoke particulates in an inhomogeneous acoustic field is displayed during an experiment and a simulation. The result shows that the aggregation and fragmentation of particles under a change in resonant frequencies and sound pressure amplitude is extremely complex. This complex process consists of dynamically tuning the particle characteristics to attain stripes shaped like thin-films/umbrellas and clusters with volume-change/fragmentation. The balanced modulation of the acoustic radiation force and secondary radiation force to alter the particle characteristics (size and stack density) is verified to be the control mechanism of the particle system. The intermediate variable of the process control is the acoustic contrast factor (Φ) related to the physical characteristics of the growing particulates. The value plus-minus alternation of Φ results in different particulate processes. This study can enhance the application of aerodynamic acoustic-particulate-fluid systems for environment protection, energy fuel conversion, and industrial production.

关 键 词：Acoustic aggregation Porous particulates Secondary radiation force Acoustic radiation force Stripe pattern Inhomogeneous field 

分 类 号：X513[环境科学与工程—环境工程]