The Ion Exchange and Solvent Extraction series treats ion exchange and solvent extraction both as discrete topics and as a unified, multidisciplinary study - presenting new insights for researchers in many chemical and related field. Containing current knowledge and results in ion exchange, this text: presents an overview of the chemical thermodynamics of cation-exchange reactions, with particular emphasis placed on liquid-phase- and solid-phase-activity coefficient models; describes the development of surface complexation theory and its application to the ion exchange phenomenon; discusses metal-natural colloid surface reactions and their consideration by surface complexation modelling complements; and covers the influence of humic substances on the uptake of metal ions by naturally occurring materials.
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"This authoritative reference is important to research workers and those using ion-exchange, solvent extraction or metal-natural colloid reactions and processes. This is a multidisciplinary study of importance to operators in many fields such as environmental chemists, geochemists, biochemists, membrane researchers, and hydrometallurgists. " ---Australian Mineral Foundation
Chemical thermodynamics of cation exchange reactions - theoretical and practical considerations, Steven A. Grant and Philip Fletcher; a three-parameter model for summarizing data in ion exchange, Erik Hoegfeldt; description of ion-exchange equilibria by means of the surface complexation theory, Wolfgang H. Hoell et al; surface complexation of metals by natural colloids, Garrison Sposito; a Gibbs-Donnan-based analysis of ion-exchange and related phenomena, Jacob A. Marinsky; influence of humic substances on the uptake of metal ions by naturally occurring materials, James H. Ephraim and Bert Allard.
Jacob A. Marinsky, Yizhak Marcus
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