Theory to describe incomplete ion exchange in charged heterogeneous systems
Autor: | Rui Li, Wuquan Ding, Hang Li, Xinmin Liu, Rui Tian, Wei Du |
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Rok vydání: | 2018 |
Předmět: |
Ion exchange
Chemistry Stratigraphy Analytical chemistry Ionic bonding 04 agricultural and veterinary sciences Electrolyte 010501 environmental sciences 01 natural sciences Ion Adsorption Reaction rate constant Desorption 040103 agronomy & agriculture Cation-exchange capacity 0401 agriculture forestry and fisheries 0105 earth and related environmental sciences Earth-Surface Processes |
Zdroj: | Journal of Soils and Sediments. 19:1839-1849 |
ISSN: | 1614-7480 1439-0108 |
DOI: | 10.1007/s11368-018-2204-z |
Popis: | Incomplete ion exchange state in charged heterogeneous systems has been observed for a long time, but no general theory to describe this seemingly ordinary yet important phenomenon has been developed. The purposes of this study were to verify the effects of specific ions on the incomplete ion exchange and establish a theory to describe the incomplete ion exchange state. Permanently charged montmorillonite were pre-saturated with KNO3. K+-saturated montmorillonite (~ 0.5 g) were evenly spread in the exchange chamber. Exchange solutions (CsNO3, NaNO3, and LiNO3) with electrolyte concentrations of 0.0001, 0.001, 0.01, 0.02, and 0.03 mol L−1 concentrations flowed across the sample layer with a constant flow rate of 0.5 mL min−1, respectively. The adsorption amount for each cation species was calculated based on the concentration difference before and after each experiment. There were great differences between the adsorption amounts of Cs+, Na+, and Li+. The adsorption amounts of different ions were smaller than the cation exchange capacity of montmorillonite, aside from the Cs+ adsorption at the maximum Cs+ concentration of 0.03 mol L−1. Therefore, the observed adsorption equilibrium of cations was actually in an incomplete ion exchange state rather than a complete ion exchange state. The amounts of adsorbed cations at the incomplete ion exchange state displayed the order of Cs+ > Na+ > Li+, which means that the activation energies of cation exchange adsorption possessed the order of Cs+ |
Databáze: | OpenAIRE |
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