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Abstract This work investigates the effect of lift force, turbulent dispersion force, bubble breakup models, bubble coalescence models, and the parameters in the class method for solving PBEs on the… Click to show full abstract
Abstract This work investigates the effect of lift force, turbulent dispersion force, bubble breakup models, bubble coalescence models, and the parameters in the class method for solving PBEs on the simulated local bubble size distribution (BSD) at various locations (r/R = 0.0, 0.27, 0.58 and 0.8), and the local Sauter mean diameter (Sd) in bubble columns. The results suggest that the local BSD and Sd are slightly affected by the radial positions but greatly influenced by the lift force and the parameters in the class method (e.g. the minimum bubble diameter and maximum bubble diameter). The prediction of BSD could be promoted by including the lift force. The local Sd increases with the increase of the minimum bubble diameter and the maximum bubble diameter.
Journal Title: Chemical Engineering Science
Year Published: 2020
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