Albadarin, AB,Solomon, S,Kurniawan, TA,Mangwandi, C,Walker, G

2017

December

Journal Of Environmental Management

Single, simultaneous and consecutive biosorption of Cr(VI) and Orange II onto chemically modified masau stones

Published

()

Dye removal Heavy metals Binary Consecutive biosorption Bioremediation Anionic pollutants ADSORPTION-COUPLED REDUCTION HEXAVALENT CHROMIUM AQUEOUS-SOLUTIONS METHYLENE-BLUE REMOVAL DYE CHITOSAN SORPTION BIOMATERIALS EQUILIBRIUM

204

365

374

Novel and low cost chemically modified masau stone (CMMS) was investigated for its biosorption of an anionic azo dye, Orange II (OII), and toxic hexavalent chromium (Cr(VI)) from aqueous systems: individually, simultaneously and consecutively. XPS and FT1R analyses indicated the introduction of quaternary-Nitrogen to the CMMS surface after activation with epichlorohydrin (etherifying agent) and diethylenetriamine (crosslinking agent). The effects of pH, contact time and initial concentration (Co), and loading order on mechanisms of biosorption/reduction of OII and Cr(VI) onto CMMS were examined in detail. Several analytical techniques were employed to characterise the physio-chemical properties of the CMMS and determine the biosorption mechanisms. The pseudo second order and redox models were able to adequately predict the kinetics of biosorption. The Langmuir maximum OH biosorption capacity (qmax) was calculated as 136.8 mg/g for the dye onto the Cr(VI)-loaded CMMS consecutive system at 100 mg/dm(3). The q(max) for the Cr(VI) system was found to be 87.32 mg/g at the same C-0 max. This reveals that the biosorption of 011 and Cr(VI) mainly takes place via two different mechanisms i.e. hydrogen bonding and electrostatic attraction for the dye, and biosorption-coupled reduction for Cr(VI). (C) 2017 Elsevier Ltd. All rights reserved.

10.1016/j.jenvman.2017.08.042