Article ID Journal Published Year Pages File Type
159020 Chemical Engineering Science 2007 9 Pages PDF
Abstract

Experiments were conducted in a 0.12-m-in-diameter bubble column to investigate the effect of electrolytes on gas hold-up (ε)(ε) and on the regime transition point in bubble columns. Air was used as the dispersed phase and aqueous solutions of three different salts (NaCl, Na2SO4Na2SO4 and NaI), as well as double-distilled water, were utilised as the continuous phase, varying the gas superficial velocity (uG)(uG) in the range 0–0.26 m/s. The ε×uGε×uG curves were a function of both the chemical nature and the concentration of the electrolytes. However, similar ε×uGε×uG profiles were obtained regardless of the electrolyte for a given ratio between the concentration in the solution and the critical concentration of the electrolyte for bubble coalescence. This ratio therefore presents itself as a promising modelling parameter to account for the chemical nature of electrolytes. The gas hold-up data were employed to compute the regime transition point according to two different methods, evidencing its non-linear dependence on the concentration of electrolytes in the liquid.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
Authors
, ,