Optimization of multi-stage velocity gradients in a cylindrical fluidized bed flocculator_中国颗粒学会

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Partic. vol. 19 pp. 118-123 (April 2015)
doi: 10.1016/j.partic.2014.05.006

Optimization of multi-stage velocity gradients in a cylindrical fluidized bed flocculator

Yamei Lua, b, Jun Wanga, Dandan Zhoua,*, Zhengxue Xua Xiaotao T. Bic

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zhoudandan415@163.com

Highlights

    • Multi-stage velocity gradients were set up in a cylindrical fluidized bed. • Multi-stage velocity gradients fluidized bed (MGF) was beneficial to protection of flocs. • The required velocity gradients could be achieved by formulating solid phase. • Suspended solids and dispersed dyes could be removed more efficiently in MGF.

Abstract

Flocculation time is conventionally believed to be proportional to the flocculation efficiency of a cylindrical fluidized bed flocculator. However, in a single-stage velocity gradient situation, the flocculation efficiency decreases when the optimal flocculation time is exceeded. A multi-stage velocity gradient was established in a cylindrical fluidized bed flocculator, based on the hydraulic classification theory. This multi-stage velocity gradient fluidized bed flocculator (MGF) created a more suitable environment for floc growth and protection, which was confirmed by the size distribution of flocs along the bed height. Correspondingly, the abatement efficiencies for Kaolin slurry and dyed wastewater treatment in the MGF were enhanced by 5–10%, and by 7–20%, respectively, compared with those in the single-stage velocity gradient fluidized bed flocculators (SGFs). The initial bed height distribution ratio along the velocity gradients was an important factor for MGF optimization.

Graphical abstract

Image for unlabelled figure

Keywords

Abatement efficiency; Floc protection; Fluidized bed flocculator; Multi-stage velocity gradient; Optimization



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