SCI和EI收录∣中国化工学会会刊

›› 2010, Vol. 18 ›› Issue (3): 355-361.

• •    下一篇

Flooding Characteristics of Hydrofoil Impeller in a Two-and Three-phase Stirred Tank

蔡清白, 戴干策   

  1. State Key Laboratory of Chemical Engineering, East China University of Science and Technology, Shanghai 200237, China
  • 收稿日期:2009-08-24 修回日期:2010-05-13 出版日期:2010-06-28 发布日期:2010-06-28
  • 通讯作者: DAI Gance,E-mail:gcdai@ecust.edu.cn

Flooding Characteristics of Hydrofoil Impeller in a Two-and Three-phase Stirred Tank

CAI Qingbai, DAI Gance   

  1. State Key Laboratory of Chemical Engineering, East China University of Science and Technology, Shanghai 200237, China
  • Received:2009-08-24 Revised:2010-05-13 Online:2010-06-28 Published:2010-06-28

摘要: The flooding characteristics of hydrofoil impeller were systematically investigated in a two-and three-phase 383 mm i.d. stirred tank operated on air, water and spherical glass beads. The volumetric solid concentration Cs was varied from 0 to 25%. And the superficial gas velocity Ug was at the range of 0-0.096 m·s-1. A fast and objective method for identifying flooding point NF is developed based on the statistical analysis of the pressure fluctuation signals. It is found, the effect of solid concentration on the flooding point NF depends on the gas velocity. At the lower gas velocity (Ug=0.010 m·s-1), the solid concentration has only a minor effect. However, it displays a very significant effect on the flooding point NF at the medium and high gas velocity. The flooding point NF linearly increases with the gas velocity Ug, at lower solid concentration (Cs=0, 10%). When Cs=20%, the behavior of NF versus Ug becomes more complex. The correlations of the flooding characteristics in the slurry stirred tank are proposed by considering the solid concentration effect.

关键词: flooding point NF, flooding/loading transition, hydrofoil impeller, power spectra analysis

Abstract: The flooding characteristics of hydrofoil impeller were systematically investigated in a two-and three-phase 383 mm i.d. stirred tank operated on air, water and spherical glass beads. The volumetric solid concentration Cs was varied from 0 to 25%. And the superficial gas velocity Ug was at the range of 0-0.096 m·s-1. A fast and objective method for identifying flooding point NF is developed based on the statistical analysis of the pressure fluctuation signals. It is found, the effect of solid concentration on the flooding point NF depends on the gas velocity. At the lower gas velocity (Ug=0.010 m·s-1), the solid concentration has only a minor effect. However, it displays a very significant effect on the flooding point NF at the medium and high gas velocity. The flooding point NF linearly increases with the gas velocity Ug, at lower solid concentration (Cs=0, 10%). When Cs=20%, the behavior of NF versus Ug becomes more complex. The correlations of the flooding characteristics in the slurry stirred tank are proposed by considering the solid concentration effect.

Key words: flooding point NF, flooding/loading transition, hydrofoil impeller, power spectra analysis