Volume 58
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Zhou, E., Zhang, Y., Zhao, Y., Tian, Q., Chen, Z., lv, G., . . . Duan, C. (2021). Influence of bubbles on the segregated stability of fine coal in a vibrated dense medium gas–solid fluidized bed. Particuology, 58, 259-267. https://doi.org/10.1016/j.partic.2021.03.018
Influence of bubbles on the segregated stability of fine coal in a vibrated dense medium gas–solid fluidized bed
Enhui Zhou a b, Yadong Zhang a b *, Yuemin Zhao a b, Qingqing Tian a b, Zengqiang Chen a b, Guannan lv a b, Xuliang Yang a b, Liang Dong a b *, Chenlong Duan a b
a Key Laboratory of Coal Processing & Efficient Utilization, Ministry of Education, China University of Mining & Technology, Xuzhou 221116, China
b School of Chemical Engineering & Technology, China University of Mining & Technology, Xuzhou 221116, China
10.1016/j.partic.2021.03.018
Volume 58, October 2021, Pages 259-267
Received 24 February 2020, Revised 28 December 2020, Accepted 26 March 2021, Available online 28 April 2021, Version of Record 13 September 2021.
E-mail: zyd0729@cumt.edu.cn; dongl@cumt.edu.cn

Highlights

• The evolution characteristics of bubbles in the separation process was studied.

• The influence of bubble movement on the separation stability of fine coal was investigated.

• The separation effect of raw coal was quantitatively analyzed by the solids mixing entropy.


Abstract

In this paper, the variation of bubble size and number in the separation process of vibrated fluidized bed as well as the influence of bubble movement on the axial distribution of fine coal in different positions of the bed were studied. The result revealed that the size and number of bubbles is correlated with the fine coal separation effect in the separation process. When the bed is in a uniform and stable fluidized state, the size of bubbles in the separation process was in the range of 1–2.5 cm and the number of bubbles was reduced by nearly 50%, which is helpful to promote the stratification and segregation of fine coal. Thereby, after separation, the ash content of refined coal products of anthracite and 1/3 coking coal was reduced to 12.1% and 23.7% respectively, and the content of refined coal was up to 42.5% and 68.5% respectively, which show that the vibrated fluidized bed has a good separation performance, and can separate efficiently the coal of size −6 + 1 mm.

Graphical abstract
Keywords
Separation; Bubble; Fluidization; Vibration fluidized bed; Solids mixing entropy