Mass transfer at the confining wall of helically coiled circular tubes with gas-liquid flow and fluidized beds

Experiments were conducted to investigate the effect Of Various dynamic and geometric parameters oil mass transfer coefficients in two-phase helically coiled flow systems. Computation of mass transfer coefficients was facilitated by the measurement of limiting current at the electrodes fixed flush With the inner Surface of the tube wall. Two flow systems were chosen: a two-phase liquid solid fluidized bed and a two-phase gas-liquid up How. An equimolar potassium ferrocyanide and potassium ferricyanide solution in the presence of sodium hydroxide was used as the liquid phase. In the fluidized bed, glass spheres and sand of different sizes were employed as fluidizing solids. In two-phase flow system nitrogen was employed as inert gas. The pressure drop in the presence of fluidizing solids in helical coils was found to increase with increase in the pitch of the coil and was maximum for straight tube. The mass transfer coefficients were found to increase with increase in liquid velocity. The mass transfer coefficients in case of gas-liquid flow were found to be independent of liquid velocity and the pitch of the coil, and were largely influenced by gas velocity only. The data were correlated using j(D) factor, Helical number, Froude number and Stanton number. (C) 2009 Elsevier B.V. All rights reserved.