Modelling of Cs sorption in natural mixed-clays and the effects of ion competition |
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| Institution: | 1. Geology Department, Faculty of Science, Zagazig University, Zagazig, Egypt;2. Hot Lab. Center, Atomic Energy Authority, P.O. 13759, Cairo, Egypt;1. Institute of Inorganic Chemistry – WASTe-Elemental Analysis Group, Saarland University, Saarbrücken, Germany;2. Analytical and Ecological Chemistry, Trier University, Trier, Germany;1. Bhabha Atomic Research Centre, Mumbai 400 085, India;2. Homi Bhabha National Institute, 400 094 Mumbai, India;3. Lomonosov Moscow State University, 119991 Moscow, Russia;4. Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry, Russian Academy of Science, 119017 Moscow, Russia |
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| Abstract: | Cs migration in the environment is mainly controlled by sorption onto mineral surfaces, in particular on clay minerals. With the objective of designing a geochemical reactive barrier to treat 137Cs accidental pollution in an industrial waste repository, different natural clayrocks were studied to analyse their capacity to retain Cs.The simple semi-empiric Kd-approach for experimental data analysis, is unsatisfactory to describe the variability of sorption upon chemical changes. Indeed, due to the high salinity of the site, the effects of competitive ions must be evaluated and quantified. Thus, the development of sorption models, capable of reproducing experimental data obtained under conditions representative of the contaminated site, and applicable to reactive transport studies, is needed.In this study, a model for Cs sorption, which takes into account the main mineralogy of the sorbent, the composition of the natural water (and ion competition) was successfully applied to interpret the non-linear Cs sorption under natural conditions.The selectivity coefficients of Cs with respect to the most important cations present in the site water (Na, K, NH4, Ca) were derived by means of experiments in single clay minerals and synthetic mono-component solutions. Then, these parameters were tested in systems of increasing complexity.Considering the mineralogical composition of raw materials, it was shown that the principal contribution to Cs sorption is given by the mineral illite, while smectite starts to be relevant only at very high Cs loadings. Kaolinite, even in concentrations around 10 wt% of the clayey fraction, played only a minor role.With respect to the solution composition, the model was able to predict Cs sorption in electrolyte concentrations up to twice than that of seawater and up to 500 mg/L NH4+. The effect of highly competing ions, especially NH4+ and K+, on Cs retention is more important at low ionic strengths and low Cs loadings, where adsorption is dominated by illite selective frayed edge sites, FES. Divalent cations are not especially relevant as competing cations for Cs. |
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