JEPTER, Volume 80, Number 4, 2007 INTERPHASE MASS TRANSFER BETWEEN LIQUID-LIQUID COUNTER-CURRENT FLOWS. II. MASS TRANSFER KINETICS E. Horvath, E. Nagy, C. Boyadjiev, and J. Gyenis

INTERPHASE MASS TRANSFER BETWEEN LIQUID-LIQUID
COUNTER-CURRENT FLOWS. II. MASS TRANSFER KINETICS

E. Horvath,^a E. Nagy,^a
C. Boyadjiev,^b and J. Gyenis^a 

UDC 532.529.5

A theoretical analysis of mass-transfer kinetics based 
on the method of similarity variables for a liquid-liquid counter-current 
flow has been made. The numerical results obtained for the mass-transfer 
rate (Sherwood number) in the case of a laminar boundary layer with 
a flat interphase are compared with analogous results for a co-current 
flow. The ratio between the mass-transfer rate and the energy dissipation 
in the boundary layer is determined. The advantages of the co-current 
flow due to lower energy losses compared with the case of the counter-current 
one are shown.

^aUniversity of Veszprém, Research Institute Chemical Process Engineering, 
8201 Veszprém, P.O.B. 125, Hungary; ^bBulgarian 
Academy of Sciences, Institute of Chemical Engineering, 1113 Sofia, Acad. 
G. Bontchev Str., Bl. 103, Bulgaria. Published in Inzhenerno-Fizicheskii 
Zhurnal, Vol. 80, No. 4, pp. 86-90, July-August, 2007. Original 
article submitted January 26, 2006; revision submitted June 20, 2006.