Experimental study of mass transfer during single drop formation, release and fall

The study of the mechanism of mass transfer in liquid drops as presented in Part I[11 of this paper has been continued and brought to an end. A quantitative prediction of mass transfer can be presented now for the period of drop formation until the process of drop release sets in. Within the area s

Abstraet--A study of the rate of mass transfer to drops growing at a moderate speed has been made. The system used was that of isobutanol drops in a continuous water phase. A model for the behaviour of the different parts of a drop during formation and release has been proposed. On this basis a com

D e p a r t m e n t of C h e m i c a l Engineering University of N o t r e Dame, N a t r e Dome, Indiana 46556 Rates of mass transfer during drop formation and coalescence were investigated for three dispersed phase-controlled liquid systems, one binary (ethyl acetate-water) and two ternary (acetic

## Abstract This experimental study shows effects of anionic and cationic surface active agents on mass transfer during drop formation, fall, and coalescence for both continuous and disperse phase‐controlled systems. Three dispersion nozzles, mounted with 1.906 cm equilateral pitch, and a 5.08 cm I