AI Article Synopsis
- Bentonite is being explored as a material for buffering radioactive waste due to its high sorption capacity for cations, but it struggles to adsorb anions because of its negative surface charge.
- The study introduces organic-pillared bentonite (OPBent), which is modified to enhance its anion adsorption capabilities, specifically targeting selenium (Se), a toxic byproduct of radioactive waste.
- Experimental results indicate that modifying bentonite significantly improves its ability to adsorb Se, suggesting potential for further research on using this modified material for other anionic pollutants and remediation applications.
Article Abstract
Usage of bentonite as a buffer material is suggested in radioactive waste repositories. Although bentonites have higher sorption ability to cations, they cannot adsorp anions due to negative surface charge. Nowadays, ongoing researches focus on increasing anion adsorption ability of the bentonites with modification. Organic-pillared bentonite (OPBent) was produced by modification of sodium bentonite with aluminum polyoxy and hexadecylpyridinium cations in this study. Variation in structure after modification was demonstrated by using different characterization techniques. Se removal efficiency of OPBent is investigated by using (75)Se, since selenium (Se) is one of the important long lived fission products found in radioactive waste and has toxic anionic species in an aqueous environment. The effect of reaction time, solid/liquid ratio, pH and concentration on the adsorption performance were examined. Se speciation and its effect onto adsorption were also investigated by measuring Eh-pH values under certain experimental conditions. Additionally, importance of the amount of Al-polyoxy cations used in modification was investigated by comparing these results with the results of other organic-pillared bentonite produced in our previous research. Experimental results confirmed that both cations were successfully placed into the bentonite interlayer and significant change in the host structure leads to increase Se adsorption. Consequently, bentonite modification improves its Se adsorption ability and further investigations are needed related to the usage of this adsorbent in other remediation studies especially in sorption of other anionic pollutants.
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| http://dx.doi.org/10.1016/j.jenvman.2015.06.005 | DOI Listing |
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