Remediation of the Textile Dye Brilliant Blue FCF from Contaminated Water via a Fenton-Like Reaction: Influence of Aromatic Additives

Authors: ALİREZA KHATAEE, VAHID VATANPOUR, MASOUD RASTEGAR FARAJZADEH

Abstract: The oxidative decolorization of Brilliant Blue FCF (BBF) in aqueous solution was studied using a Fenton-like (H_2O_2/Fe^{3+}) reaction in a dark environment. The effects of operational parameters, such as H_2O_2, Fe^{3+}, and initial dye concentrations, were investigated. Results indicated that by increasing the initial concentration of H_2O_2 and Fe^{3+} the rate of BBF decolorization was enhanced; however, the rate of BBF decolorization decreased with an increase in the initial concentration of BBF. In addition, the influence of aromatic additives and Orange II on the efficiency of BBF removal was examined. The decolorization rate of BBF in the presence of various aromatic additives obeyed the following order: gallic acid > hydroquinone > salicylic acid > 2-nitrophenol > 1,4-dihydroxynaphthalene. The rate of BBF decolorization increased as the initial concentration of hydroquinone additive increased up to 5 \times 10^{-5} M, but beyond this there was a decrease in the decolorization rate. Mineralization of the dye solution was determined by measuring the reduction of chemical oxygen demand (COD). For a dye solution with a COD of approximately 45 ppm and dye concentrations less than 5 \times 10^{-5} M, complete color removal and 80% mineralization was obtained after a reaction time of 150 min under optimized conditions.

Keywords: Decolorization, Advanced oxidation processes (AOPs), Hydroquinone, Organic dyes

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