Calculation of Mass Transfer Coefficients in the System Sulphate in Chloride Solution/Anion Exchanger in the Chloride Form

When ion-exchange takes place in the presence of a co-ion which reacts with one of the ions being exchanged, the rate of such an exchange is affected by the reaction. Equations are derived for the general situation and are applied to the H+/Na+-acetate-system. Limiting examples are illustrated. Usin

This paper examines the application of Nemst-Planck theory to the liquid side ionexchange mass transfer coefficient where the ions being exchanged do not have the same valency. The theoretical results are applied to the case of H+/Cu++ exchange between dilute aqueous chloride solutions and Zeo-Karb

## Impedance measurements were performed on Iron m sulphate and chlonde media with varying additions of chlonde and sulphate respectively These experiments were performed wlthm pH &4 and current density up to 0 2 A cm-' The impedance diagrams showed a gradual transition from the lron-chlonde to Ir

The distribution method was modified in several directions: petroleum ether was used as extracting solvent; the ratio of the volumes of the organic and aqueous phases was varied so as to keep the weight of the amine in the aqueous phase approximately equal to that in the organic phase; and the amine

Graphite anode corrosion exhlblts a maximum at neutral pH values as the result of two opposmg factors This 1s explamed of the anodlc oxygen the amount of oxygen evolved per unit time and the actlvlty The presence of sulphate ion m the solution mcreases graphite anode corrosion strongly m concentrate