Abstract
The purpose of this study was to investigate the application of enhanced Fenton process (EFP) using zero-valent iron combined with ultrasonic irradiation for treatment of wastewater containing acid red 18 (AR18) by response surface methodology. According to the analysis of variance results, the model presents high R2-value of 98.2 and 98.3% for the COD and AR18 dye removal, respectively, indicating that the model was successful. In this paper, the results of the monitoring of oxidation reduction potential and dissolved oxygen were presented to obtain the reaction time. At the 60 min of contact time, AR18 dye and COD removal efficiency raised more than 30 and 5% with the increase in Fenton reagents, respectively. Effluent without the presence of phosphate indicated 40% increment of AR18 dye removal in comparison to the influent with the presence of phosphate. Considering the EFP as post treatment of a sequencing batch reactor, the combination system improved the efficiency of high azo dye AR18 concentration wastewater treatment.
Acknowledgments
The authors are grateful to the Amirkabir University of Technology, Iranian Mineral Processing Research Center (IMPRC), and Alborz Industrial Estates Co. (Alborz-IEC) for providing research materials, equipments, and fund for this research. In addition, the authors wish to thank Mr. Ehssan Hosseini Koupaie and Mr. Ebrahim Nazlabadi for their assistance and consultations during the experiments.