An analysis of the chaotic motion of particles of different sizes in a gas fluidized bed 被引量：2

An analysis of the chaotic motion of particles of different sizes in a gas fluidized bed

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摘要 The dynamic behavior of individual particles during the mixing/segregation process of particle mixtures in a gas fluidized bed is analyzed. The analysis is based on the results generated from discrete particle simulation, with the focus on the trajectory of and forces acting on individual particles. Typical particles are selected representing three kinds of particle motion： a flotsam particle which is initially at the bottom part of the bed and finally fluidized at the top part of the bed; a jetsam particle which is initially at the top part of the bed and finally stays in the bottom de-fluidized layer of the bed; and a jetsam particle which is intermittently joining the top fluidized and bottom de-fluidized layers. The results show that the motion of a particle is chaotic at macroscopic or global scale, but can be well explained at a microscopic scale in terms of its interaction forces and contact conditions with other particles, particle-fluid interaction force, and local flow structure. They also highlight the need for establishing a suitable method to link the information generated and modeled at different time and length scales. The dynamic behavior of individual particles during the mixing/segregation process of particle mixtures in a gas fluidized bed is analyzed. The analysis is based on the results generated from discrete particle simulation, with the focus on the trajectory of and forces acting on individual particles. Typical particles are selected representing three kinds of particle motion： a flotsam particle which is initially at the bottom part of the bed and finally fluidized at the top part of the bed; a jetsam particle which is initially at the top part of the bed and finally stays in the bottom de-fluidized layer of the bed; and a jetsam particle which is intermittently joining the top fluidized and bottom de-fluidized layers. The results show that the motion of a particle is chaotic at macroscopic or global scale, but can be well explained at a microscopic scale in terms of its interaction forces and contact conditions with other particles, particle-fluid interaction force, and local flow structure. They also highlight the need for establishing a suitable method to link the information generated and modeled at different time and length scales.

作者 Y.Q. Feng A.B. Yu

机构地区 Lab for Simulation and Modelling of Particulate Systems

出处《Particuology》 SCIE EI CAS CSCD 2008年第6期549-556,共8页 颗粒学报（英文版）

关键词 FLUIDIZATION SEGREGATION Discrete particle simulation Granular dynamics Fluidization Segregation Discrete particle simulation Granular dynamics

分类号 O359 [理学—流体力学] TP391.9 [自动化与计算机技术—计算机应用技术]

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参考文献10

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An analysis of the chaotic motion of particles of different sizes in a gas fluidized bed 被引量：2

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