Effect of Unstirred Solution Layers on Electro-Osmotic Permeability of Cation-Exchange Membranes

## It can practically be said that the electroosmosis phenome- The water electroosmotic flux, J V , through a cation exchange non may exist in all kinds of membranes. It can be originated membrane has been measured as a function of the temperature, by the existence of charged groups caused by the

The variations of the selectivity coefficient K(A)(B) between Na(+)-H(+), Na(+)-K(+), and Na(+)-Cu(2+) systems and the separation factor alpha(A)(B) between Na(+)-Cu(2+) and K(+)-Cu(2+) systems in cation-exchange membranes as functions of loading and particle size of resin have been measured. The ex

Chitosan membrane was prepared in various conditions and diffusive permeabilities of theophylline and vitamin B 12 were investigated. The membrane preparation procedure consists of dissolving chitosan in acid solution, cast on the glass plate, drying the dope solution, and immersion of the plate in

The electroosmotic flux through a cation-exchange membrane has been obtained in different situations. From these measurements, the apparent electroosmotic permeability, W, of a cationexchange membrane has been determined as a function of the temperature, T, and the stirring rate, v, of the solutions

The effect of electrolyte solutions on the characteristics of the current-voltage (I-V) curve in a cation-exchange membrane (CMX membrane, Tokuyama Soda, Inc.) was studied based on the concentration polarization and electroconvection theory. The study includes the limiting current density (LCD), pla