Abstract

The anodic oxidation of Amaranth dye has been studied by electrochemical measurements (cyclic voltammetry and polarisation curves) and bulk electrolysis employing a single or two cells in a serial mode system using active and non-active anodes (Ti/IrO2-Ta2O5 and Nb/BDD) as electrode materials. The results of electrochemical measurements showed that, Nb/BDD had a significant oxidation power to mineralise Amaranth dye than Ti/IrO2-Ta2O5 anode. Single cells were tested at different current densities (30, 60 and 80mAcm−2). At Nb/BDD anode, total colour elimination and 49.1% of COD removal were achieved by applying 30mAcm−2 after 60min of treatment. Conversely, 98.5% of colour removal and 43.2% of COD decay were accomplished at 60mAcm−2 with Ti/IrO2-Ta2O5 electrode, after 360min of electrolysis time. Supported on the obtained results with single cells, a system in a serial mode was further evaluated for the first time. The arrangement with Ti/IrO2-Ta2O5 electrode at 30mAcm−2 in the first cell followed by Nb/BDD anode at 30mAcm−2 revealed the most interesting results. Complete decolourisation and 75.1% of COD abatement were achieved after 60min with lower energy requirements of about 25.4kWhm−3 (0.2kWhgCOD−1). This study demonstrates the potential of a serial system to be applied as a wastewater pre-treatment approach.

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