Kinetic studies on the exchange of bivalent metal ions on amberlite IRC-718-an iminodiacetate resin

Abstract

: The rate of uptake of alkaline earth metals, copper, and lead have been investigated by a chelating ion exchange resin containing iminodiacetic acid as ligand attached to the copolymer of styrene and divinyl benzene of macroporous matrix structure. It binds alkaline earth metals, Cu, and Pb by the formation of chelate complexes with the carboxylate group of this resin. The experiments discussed in this work have allowed to establish the paramount importance of the presence of this chelating group in obtaining practically useful rates of metal ion uptake. The kinetic parameters like diffusion coefficient (D-o), activation energies (DeltaE(a)) and entropy of activation have been evaluated under the conditions favoring a particle diffusion control mechanism and the study followed the three models i.e., Nernst Planck, B, technique and Ash model. K-d values in demineralised water (DMW) were found in the order Cu2+ > Pb2+ >Mg2+ > Sr2+ > Ba2+ > Ca2+.