Numerical analysis of residence time distribution of solids in a bubbling fluidized bed based on the modified structure-based drag model_中国颗粒学会

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Partic. vol. 32 pp. 30-38 (June 2017)
doi: 10.1016/j.partic.2016.09.005

Numerical analysis of residence time distribution of solids in a bubbling fluidized bed based on the modified structure-based drag model

Zheng Zoua, Yunlong Zhaoa, b, Hu Zhaoa, b, Hongzhong Lia, *, Qingshan Zhua, Zhaohui Xiea, Yingbo Lic

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hzli@ipe.ac.cn

Highlights

    • The solids RTD and fluidized structure of BFB were simulated by using CFD. • The simulated results showed a reasonable agreement with the theoretical value. • The numerous small peaks on RTD curve were induced by back-mixing and aggregation of particles. • The low value of t50 resulted in poor contact between phases.

Abstract

The residence time distribution (RTD) of solids and the fluidized structure of a bubbling fluidized bed were investigated numerically using computational fluid dynamics simulations coupled with the modified structure-based drag model. A general comparison of the simulated results with theoretical values shows reasonable agreement. As the mean residence time is increased, the RTD initial peak intensity decreases and the RTD curve tail extends farther. Numerous small peaks on the RTD curve are induced by the back-mixing and aggregation of particles, which attests to the non-uniform flow structure of the bubbling fluidized bed. The low value of t50 results in poor contact between phases, and the complete exit age of the overflow particles is much longer for back-mixed solids and those caught in dead regions. The formation of a gulf-stream flow and back-mixing for solids induces an even wider spread of RTD.

Graphical abstract

Keywords

Fluidization; Residence time distribution; Bubbling fluidized bed; Modified structure-based drag model; Computational fluid dynamics CFD



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