Advanced oxidation of textile dyeing effluents: Comparison of Fe +2/H2O2, Fe+3/H2O 2, O3 and chemical coagulation processes

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Date

2009

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Parlar Scientific Publications (PSP)

Abstract

In this study, the treatment efficiency of different advanced oxidation (Fe+2/H2O2, Fe+3/H2O2, O-3) and chemical coagulation processes were investigated. Wastewater samples were taken from two different textile industries. Optimum efficiencies in color and COD removal were determined based on the applications of different chemical species and pH. 150 mg/L FeSO4 at pH 12 has provided the maximum color and COD removal efficiency in chemical coagulation experiments for textile industry 1. For textile industry 2, maximum color and COD removal efficiencies were obtained with Fe+2/H2O2 (Fenton) process at pH 3 (FeSO4 200 mg/L and H2O2 200 mg/L dosages). The operating costs of all proposed treatment systems were also evaluated in this study.

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Keywords

Fe+2/H2O2, Textile industry, Ozonation, Chemical coagulation, Treatment costs, Fe +3/H2O2, Waste-water treatment, Cod removal, Fenton process, Ion-exchange, Ozonation, Color, Decomposition, Kinetics, Decolorization, Mineralization, Environmental sciences & ecology, Chemical oxygen demand, Coagulation, Cost-benefit analysis, Dye, Effluent, PH, Removal experiment, Sampling, Textile industry, Water treatment

Citation

Solmaz, S. K. A. vd. (2009). "Advanced oxidation of textile dyeing effluents: Comparison of Fe +2/H2O2, Fe+3/H2O 2, O3 and chemical coagulation processes". Fresenius Environmental Bulletin, 18(8), 1424-1433.