Abstract
Schematic of Cr(VI) and dye simultaneous removal mechanism by ZVI in the presence of ligand. • Cr(VI) and dye were efficiently removed by ZVI with ligand-enhanced reactivity. • Oxalate ligand possessed better contaminants removal efficiency than EDTA. • The mechanism for Cr(VI) and dye removal by ZVI with ligand was examined. • It provides a new method for removal of heavy metal and organic pollutants. The pollution of heavy metal and organic pollutants is a global environmental issue. Up to now, the simultaneous removal of heavy metal and organic pollutants is still a great challenge. The removal of heavy metal and organic pollutants by zero-valent iron (ZVI) has been extensively studied, but the removal efficiency of pollutants is low using single ZVI for remediation application. In this paper, a low-cost method by ZVI in presence of ethylenediaminetetraacetic acid (EDTA) and oxalate ligands has been developed to simultaneously remove Cr(VI) and dye from wastewater. This innovative process combines the reduction of Cr(VI) to Cr(III) with the reduction/oxidation of the dye by ZVI with the aid of ligand. EDTA and oxalate ligands can significantly increase the removal efficiency of Cr(VI) and dye since the ligands can accelerate ferrous iron oxidation and increase the generation of hydroxyl radical. In contrast, oxalate ligand possessed better removal efficiency in simultaneous removal process than EDTA, and oxalate generated lower TOC than EDTA. At the optimal conditions, the removal efficiency higher than 98% for Cr(VI) and higher than 81% for dye was observed in presence of 3.0 mM oxalate. X-ray Photoelectron Spectroscopy, Fourier Transform Infrared Spectroscopy and UV–visible spectrometer were used to study the reaction mechanism among Cr(VI), ZVI and dye in presence of ligand.
Published Version
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