期刊
ADVANCED POWDER TECHNOLOGY
卷 32, 期 4, 页码 1207-1218出版社
ELSEVIER
DOI: 10.1016/j.apt.2021.02.023
关键词
Power-law fluid; Drag model; Rheological properties; Two-phase flow; Simulation
资金
- National Natural Science Foundation of China [11472093, 91752115]
An improved drag model for power-law fluid-particle flow, taking into account the effects of rheological properties, was proposed in this study. The model was validated through numerical simulations under different particle concentrations, showing that the increase in flow behavior index and consistency coefficient leads to higher drag coefficient between phases and lower average particle concentration within the bed.
A modified drag model for the power-law fluid-particle flow considering effects of rheological properties was proposed. At high particle concentrations (epsilon(s) >= 0.2), based on the Ergun equation, the cross-sectional shape and the tortuosity of the pore channel are considered, and the apparent flow behavior index and consistency coefficient of the power-law fluid at the surface of the particles are corrected. At low particle concentrations (epsilon(s) < 0.2), based on the Wen-Yu drag model, the modified Reynolds number for power-law fluid and the relational expression between drag coefficient for single particle and Reynolds number that considers the effect of the flow behavior index are adopted. Numerical simulations for the power-law fluid-particle flow in the fluidized bed were carried out using the non-Newtonian drag model. The effects of rheological parameters on the drag coefficient were analyzed. The comparisons of simulation and experiment show that the modified drag model predicts reasonable void fraction under different rheological parameters, particle diameters, and liquid velocities in both low particle concentrations and high particle concentrations. The increase in flow behavior index and consistency coefficient increases the drag coefficient between the two phases and decreases the average particle concentration within the bed. (C) 2021 The Society of Powder Technology Japan. Published by Elsevier B.V. and The Society of Powder Technology Japan. All rights reserved.
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