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Vanadium removal by cationized sawdust produced through iodomethane quaternization of triethanolamine grafted raw material

Harshita Gogoi, Ruichi Zhang, Jakub Matusik, Tiina Leiviskä, Jaakko Rämö, Juha Tanskanen

2021Chemosphere27 citationsDOIOpen Access PDF

Abstract

In this study, two-step surface modification of sawdust using triethanolamine (at 180 °C) and iodomethane (at 42 °C) was performed to produce a novel quaternized biosorbent, TEA-I-SD. The characterization studies revealed significant morphological changes in the sawdust and successful quaternization with a nitrogen content of 5.75%. The highest vanadium removal (96.2%) was achieved at pH 4 (dosage 1 g/L, initial vanadium concentration 19.1 mg/L). Equilibrium was achieved within 8 h of contact time and the adsorption kinetics were well fitted with the pseudo-second-order model. Both film diffusion and intra-particle diffusion contributed to the adsorption process, while the latter was the rate-limiting step. The maximum vanadium adsorption capacity of TEA-I-SD (35.0 mg/g, pH 4) was close to the theoretical value obtained from the Langmuir model. The best fit was achieved with the Redlich-Peterson model, exhibiting a monolayer adsorption phenomenon. Tests with real mine water containing 11 mg/L of vanadium also confirmed its high removal (91.3%, dosage 1 g/L) using TEA-I-SD at pH 4. The TEA-I-SD could be reused three times without significant capacity loss after regeneration, although the desorption efficiency was rather low (synthetic solution: 38.5-40.5% and mine water: 26.2-43.1%).

Topics & Concepts

TriethanolamineChemistryVanadiumSawdustAdsorptionDesorptionNuclear chemistryLangmuir adsorption modelResorcinolLangmuirDiffusionAqueous solutionInorganic chemistryChromatographyOrganic chemistryAnalytical Chemistry (journal)ThermodynamicsPhysicsVanadium and Halogenation ChemistryAdsorption and biosorption for pollutant removalRadioactive element chemistry and processing
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