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Diffusion mechanisms of multiple strontium species in clay

Journal Article · · Geochimica et Cosmochimica Acta
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A mechanistic diffusion model for Sr in water-saturated clay (illite and kaolinite) is elaborated based on laboratory results. Both porewater and surface diffusion pathways are identified. Their relative importance is controlled by variable adsorption selectivity of Sr, associated with aqueous speciation. Conditional diffusion coefficients for Sr, obtained experimentally using three independent methods, average 1.05 {+-} 0.12 x 10{sup {minus}7} cm{sup 2}/s from separate determinations at 5 C. Speciation, based on analytical data and stability constants, predicts total strontium (aqueous and/or absorbed) to comprise 90% free ion, Sr{sup 2}, in adsorption and diffusion experiments within pH 8. Total distribution coefficient doubles in the pH range 9 to 9.5, doubling again between pH 9.5 and 9.5. Minor occurrence of an aquo-carbonate species, SrCO{sub 3}(aq), significantly increases the total adsorption affinity of Sr for the clay above pH 9.5. Adsorption is reversible with species distribution coefficient for SrCO{sub 3}(aq) about 60 times higher than that for Sr{sup 2+}. EXAFS spectroscopy indicates similar first hydration sphere coordination numbers and distances for Sr, both adsorbed to clay and as solutions of SrCl{sub 2} and SrCO{sub 3}. Adsorption to clay surfaces occurs as weak outer sphere bonding, including intact hydration shells. A greater mass fraction of total Sr is adsorbed, supporting any contribution of surface diffusion to net transport. Heightened adsorption affinity of Sr, due to carbonate complexation, enhances possible mass transfer by surface diffusion. Model estimates of intrinsic diffusion coefficients, independent of tortuosity, are more than one order of magnitude lower for surface compared with porewater. Invoking surface diffusion implies retardation in overall transport rate, relative to porewater diffusion alone.
Research Organization:
European Commission, Varese (IT)
OSTI ID:
20017438
Journal Information:
Geochimica et Cosmochimica Acta, Journal Name: Geochimica et Cosmochimica Acta Journal Issue: 3 Vol. 64; ISSN GCACAK; ISSN 0016-7037
Country of Publication:
United States
Language:
English

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Related Subjects

54 ENVIRONMENTAL SCIENCES
ADSORPTION
ENVIRONMENTAL TRANSPORT
ILLITE
INTERSTITIAL WATER
KAOLINITE
MATHEMATICAL MODELS
SORPTIVE PROPERTIES
STRONTIUM