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Removal of arsenate using graphene oxide-iron modified clinoptilolite-based composites: adsorption kinetic and column study

Meltem Bilici Başkan, Seçil Hadımlıoğlu

2021Journal of Analytical Science & Technology28 citationsDOIOpen Access PDF

Abstract

Abstract In this study, graphene oxide (GO), iron modified clinoptilolite (FeZ), and composites of GO-FeZ (GOFeZA and GOFeZB) were synthesized and characterized using SEM, EDS, XRF, FTIR, and pH pzc . The arsenate uptake on composites of GOFeZA and GOFeZB was examined by both kinetic and column studies. The adsorption capacity increases with the increase of the initial arsenate concentration at equilibrium for both composites. At the initial arsenate concentration of 450 μg/L, the arsenate adsorption on GOFeZA and GOFeZB was 557.86 and 554.64 μg/g, respectively. Arsenate adsorption on both composites showed good compatibility with the pseudo second order kinetic model. The adsorption process was explained by the surface complexation or ion exchange and electrostatic attraction between GOFeZA or GOFeZB and arsenate ions in the aqueous solution due to the relatively low equilibrium time and fairly rapid adsorption of arsenate at the beginning of the process. The adsorption mechanism was confirmed by characterization studies performed after arsenate was loaded onto the composites. The fixed-bed column experiments showed that the increasing the flow rate of the arsenate solution through the column resulted in a decrease in empty bed contact time, breakthrough time, and volume of treated water. As a result of the continuous operation column study with regenerated GOFeZA, it was demonstrated that the regenerated GOFeZA has lower breakthrough time and volume of treated water compared to fresh GOFeZA.

Topics & Concepts

ArsenateAdsorptionAqueous solutionChemistryArseniteClinoptiloliteIon exchangeOxideArsenicMaterials scienceZeoliteInorganic chemistryIonCatalysisOrganic chemistryArsenic contamination and mitigationFluoride Effects and RemovalAdsorption and biosorption for pollutant removal
Removal of arsenate using graphene oxide-iron modified clinoptilolite-based composites: adsorption kinetic and column study | Litcius