Mass Transfer in an Energy-Efficient High-Intensity Gas–Liquid Contactor

Abstract

To improve the selectivity and yield of multiphase reactions, an attempt to intensify gas–liquid mass-transfer operations was undertaken in which screen/grid static mixers were used to promote interphase mass transfer. A modified technique was used to enhance the reproducibility of the results and to account for the depletion effect which becomes critical at high mass-transfer rates. The volumetric mass transfer coefficient, kLa, was found to increase with increasing liquid superficial velocity and gas volume fraction and reached values as high as 4.08 s–1 at low specific energy consumption rates, particularly for slowly coalescent systems, a situation that is encountered in most industrially relevant systems. The gas–liquid reactor/contactor presently investigated takes advantage of the coalescence retardation characteristics of most industrially relevant streams to achieve kLa values that surpassed those of most conventional reactor/contactors by more than an order of magnitude while maintaining a high ...