Bioremoval of antimony(III) from contaminated water using several plant wastes: Optimization of batch and dynamic flow conditions for sorption by green bean husk (Vigna radiata)

Antimony(III) is a toxic pollutant, which in the present study was removed using green bean husk (GBH) as the adsorbent. Equilibrium adsorption capacity of GBH was found to be 20.14 mg g(-1). Experimental data fit better to the Langmuir than the Freundlich isotherms model, and followed the pseudo-second-order kinetics equation more than the first-order. FTIR and XPS spectral studies indicated that carboxyl, hydroxyl and amino groups on the GBH were involved in antimony(III) adsorption. Antimony(III) was recovered from the metal-loaded GBH by 0.1 M HCl, achieving >97% desorption. Regenerated GBH was reused in seven adsorption-desorption cycles, with <10% loss in its adsorption capacity. Potential of GBH in a fixed-bed continuous flow bioreactor for the adsorption of antimony(III) was also studied. Breakthrough points were achieved on the passage of 65, 32 and 20 L of the metal-contaminated to the permissible limit of <6 mu g antimony(III) discharge, respectively, from 5, 10 and 15 mg L-1 solutions. The experimental breakthrough sorption data mathematically yielded an excellent fit to the Thomas model. (c) 2013 Elsevier B.V. All rights reserved.