Diffusion across the oil/water interface
- 5 April 1960
- journal article
- Published by The Royal Society in Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences
- Vol. 255 (1281) , 277-291
- https://doi.org/10.1098/rspa.1960.0068
Abstract
Resistances to the diffusion of a third component across an interface separating two liquids may possibly arise from a slow process of re-solvation of the solute, or from a mechanical barrier associated with a film of surface-active additive. With an unstirred diffusion cell of accuracy great enough to detect an interfacial resistance of 1000 s cm -1 we have shown that neither the clean interface nor various monolayers offer any resistance to the passage of acetic acid or diethylamine between water and oils; polymolecular films, however, may give rise to considerable resistances. All the systems we have studied show spontaneous emulsification near the interface; the effect of this has been analyzed quantitatively, and appropriate corrections made to the experimental transfer results. The rate of transfer of solute across a stationary interface is unaffected by the spontaneous emulsion.This publication has 12 references indexed in Scilit:
- On the mechanism of interfacial resistance to mass transfer in liquid-liquid extractionChemical Engineering Science, 1958
- Interfacial resistance, adsorption and interfacial tension in single drop liquid—liquid extractionChemical Engineering Science, 1957
- The effect of a surface-active agent on mass transfer in falling drop extractionChemical Engineering Science, 1956
- The effect of a surface-active agent on mass transfer in a stirred liquid-liquid extractorChemical Engineering Science, 1955
- Some factors affecting droplet behaviour in liquid-liquid systemsChemical Engineering Science, 1955
- The mechanism of mass transfer of solutes across liquid-liquid interfaces: Part I: the determination of individual transfer coefficients for binary systemsChemical Engineering Science, 1954
- The effect of surface active agents in liquid extraction processesChemical Engineering Science, 1953
- Oscillating DropletsNature, 1953
- The The Mechanism of Diffusion of Ions across a Phase Boundary and through Cell Walls.The Journal of Physical Chemistry, 1950
- Diffusion across Oil–Water InterfacesThe Journal of Physical Chemistry, 1948