Research Interests:
... However, it was found that the liquid physical properties affect the overall gas holdup (Luo, Lee, Lau, Yang & Fan, 1999) and the holdup profile ( Chen et al., 1998; Joshi et al., 1998). ... Luo, X., Lee, DJ, Lau, R., Yang, G. and... more
... However, it was found that the liquid physical properties affect the overall gas holdup (Luo, Lee, Lau, Yang & Fan, 1999) and the holdup profile ( Chen et al., 1998; Joshi et al., 1998). ... Luo, X., Lee, DJ, Lau, R., Yang, G. and Fan, LS, 1999. ...
Research Interests:
The liquid flow and mixing behavior in bubble columns is partially described by means of global liquid recirculation velocity profile. Due to the complex character of the flow in bubble columns, the prediction of the axial liquid... more
The liquid flow and mixing behavior in bubble columns is partially described by means of global liquid recirculation velocity profile. Due to the complex character of the flow in bubble columns, the prediction of the axial liquid circulation is still a difficult task. In this work, the following correlation is proposed for the liquid recirculation profile:VL(r)VLO=1−2.65∗n0.44∗crR2.65∗n0.44∗c,where n and c are the gas radial holdup profile parameters evaluated by the correlations proposed by Wu, Ong and Al-Dahhan (Chemical Engineering Science, 56 (2001) 1207-1210)n=2.188×103ReG−0.598Frg0.146MoL−0.004,c=4.32×10−2ReG0.2492. The predictions of the developed liquid circulation correlation agree well with the experimental data obtained in our laboratory and reported in literature. The model is simple and is easy to use as an engineering tool to assess the liquid recirculation in bubble columns.