2018
DOI: 10.1180/clm.2018.12
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A multi-site mechanism model for studying Pb and Cu retention from aqueous solutions by Fe-Mg-rich clays

Abstract: The retention mechanisms of metal ions during interaction of clay with metal-rich aqueous solutions is usually investigated by sorption isotherms. Although classical isotherm models may provide sufficient information about the characteristics of the solid–liquid system, they do not distinguish among the various retention mechanisms. This study presents a methodological approach of combining batch experiment data and geochemical modelling for the characterization of the interaction of Mg-Fe-rich clay materials … Show more

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Cited by 6 publications
(12 citation statements)
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“…The respective experimental and model-obtained adsorption capacities under both static and dynamic conditions are compared in Table 6. a Data acquired by Kypritidou & Argyraki (2018) The static adsorption capacities were somewhat higher than the dynamic ones, which can be attributed to the better contact between the clay particles and the solution. In static experiments, the solid particles were fully dispersed within the solution, allowing the full contact of Pb ions with the solid surface.…”
Section: Comparison With Static Adsorption Resultsmentioning
confidence: 99%
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“…The respective experimental and model-obtained adsorption capacities under both static and dynamic conditions are compared in Table 6. a Data acquired by Kypritidou & Argyraki (2018) The static adsorption capacities were somewhat higher than the dynamic ones, which can be attributed to the better contact between the clay particles and the solution. In static experiments, the solid particles were fully dispersed within the solution, allowing the full contact of Pb ions with the solid surface.…”
Section: Comparison With Static Adsorption Resultsmentioning
confidence: 99%
“…Static experiments were conducted using a solid:liquid ratio of 10 g L -1 undergoing 4 h of agitation, a pH 3.5 solution and initial Pb concentrations up to 800 mg L -1 . The Sips isotherm equation was used to fit the batch experimental data and to estimate the maximum adsorption capacities of the clay materials (Kypritidou & Argyraki, 2018). The respective experimental and model-obtained adsorption capacities under both static and dynamic conditions are compared in Table 6.…”
Section: Comparison With Static Adsorption Resultsmentioning
confidence: 99%
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