Effect of particle shape on particle flow and heat transfer behavior based on computational fluid dynamics-discrete element modeling

物理 传热 机械 流体力学 粒子(生态学) 离散元法 动力学(音乐) 计算流体力学 流量(数学) 粒子动力学 经典力学 统计物理学 分子动力学 海洋学 量子力学 声学 地质学
作者
Qiuqin Gou,Xinglin Wang,Guoding Chen,S.D. Liu
出处
期刊:Physics of Fluids [American Institute of Physics]
卷期号:37 (2) 被引量:4
标识
DOI:10.1063/5.0254411
摘要

Particle fluidization technology is often involved in biomass industrial applications. However, the utilization of biomass particles requires gas–solid flow and processes, such as heat transfer and reaction transformation. Therefore, in this paper, biomass pellets were processed into cylindrical particles and designed with five aspect ratios (AR = 0.5, 1.0, 1.5, 2.0, and 3.0). The kinetic and heat transfer characteristics of cylindrical particles with different aspect ratios in a bubbling fluidized bed were analyzed from macroscopic and microscopic perspectives using the Computational Fluid Dynamics-Discrete Element Method. The simulation results show that the higher the sphericity of cylindrical particles (AR = 1), there is obvious particle aggregation near the wall, and the higher the bed height, the more asymmetric the particle flux distribution. Increasing the gas superficial velocity helps to improve the mixing quality of the particles, convective heat transfer, particle temperature cooling rate, and uniformity of particle temperature distribution. The contact force between particles is much larger than the gas–particle interaction force, and the particle contact force is mainly concentrated on both sides of the wall. The larger the aspect ratio of cylindrical particles, the smaller and more uniformly distributed the particle contact force at the wall. Furthermore, when AR > 1, the drag force and lift force gradually increase with the increase in particle aspect ratio, the faster the particle temperature decreases, the larger the particle convective heat transfer, and the larger the standard deviation of temperature.
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