References

  1. G. Chen, Electrochemical technologies in wastewater treatment, Sep. Purif. Technol., 38 (2004) 11–41.
  2. C.A. Martínez-Huitle, E. Brillas, Decontamination of wastewaters containing synthetic organic dyes by electrochemical methods: a general review, Appl. Catal., B, 87 (2009) 105–145.
  3. D. Rajkumar, J.G. Kim, Oxidation of various reactive dyes with in situ electro-generated active chlorine for textile dyeing industry wastewater treatment, J. Hazard. Mater., 136 (2006) 203–212.
  4. M. Panizza, G. Cerisola, Electrocatalytic materials for the electrochemical oxidation of synthetic dye, Appl. Catal., B, 75 (2007) 95–101.
  5. A.G. Vlyssides, M. Loizidou, P.K. Karlis, A.A. Zorpas, D. Papaioannou, Electrochemical oxidation of a textile dye wastewater using a Pt/Ti electrode, J. Hazard. Mater., 70 (1999) 41–52.
  6. J.L. Hu, W.L. Chou, C.T. Wang, Y.M. Kuo, Color and COD removal using a three-dimensional stacked Pt/Ti screen anode, Environ. Eng. Sci., 25 (2008) 1009–1015
  7. J.S. Do, C.P. Chen, Kinetics of in situ degradation of formaldehyde with electrogenerated hydrogen peroxide, Ind. Eng. Chem. Res., 33 (1994) 387–394.
  8. T. Harrington, D. Pletcher, The removal of low levels of organics from aqueous solution using Fe(II) and hydrogen peroxide formed in situ at gas diffusion electrodes, J. Electrochem. Soc., 46 (1999) 2983–2989.
  9. M. Panizza, G. Cerisola, Removal of organic pollutants from industrial wastewater by electrogenerated Fenton’s reagent, Water Res., 35 (2001) 3987–3992.
  10. A. Wang, J. Qu, J. Ru, H. Liu, J. Ge, Mineralization of an azo dye Acid Red 14 by electro-Fenton’s reagent using an activated carbon fiber cathode, Dyes Pigm., 65 (2005) 227–233.
  11. E. Brillas, I. Sirés, M.A. Oturan, Electro-Fenton process and related electrochemical technologies based on Fenton’s reaction chemistry, Chem. Rev., 109 (2009) 6570–6631.
  12. M. Zhou, Q. Yu, L. Lei, The preparation and characterization of a graphite–PTFE cathode system for the decolorization of C.I. Acid Red 2, Dyes Pigm., 77 (2008) 129–136.
  13. C.T. Wang, J.L. Hua, W.L. Chou, Y.M. Kuo, Removal of color from real dyeing wastewater by Electro-Fenton technology using a three-dimensional graphite cathode, J. Hazard. Mater., 152 (2008) 601–606.
  14. P. Tripathi, V.C. Srivastava, A. Kumar, Optimization of an azo dye batch adsorption parameters using Box–Behnken design, Desalination, 249 (2009) 1273–1279.
  15. P. Sudamalla, P. Saravanan, M. Matheswaran, Optimization of operating parameters using response surface methodology for adsorption of crystal violet by activated carbon prepared from mango kernel, Sustain. Environ. Res., 22 (2012) 1–7.
  16. T. Ölmez, The optimization of Cr(VI) reduction and removal by electrocoagulation using response surface methodology, J. Hazard. Mater., 162 (2009) 1371–1378.
  17. D. Prabhakaran, C.A. Basha, T. Kannadasan, P. Aravinthan, Removal of hydroquinone from water by electrocoagulation using flow cell and optimization by response surface methodology, J. Environ. Sci. Health, Part A, 5 (2010) 400–412.
  18. M. Umar, H.A. Aziz, M.S. Yusoff, Assessing the chlorine disinfection of landfill leachate and optimization by response surface methodology (RSM), Desalination, 274 (2011) 278–283.
  19. A.R. Khataee, M. Zarei, L. Moradkhannejhad, Application of response surface methodology for optimization of azo dye removal by oxalate catalyzed photoelectro-Fenton process using carbon nanotube-PTFE cathode, Desalination, 258 (2010) 112–119.
  20. B.K. Körbahti, Response surface optimization of electrochemical treatment of textile dye wastewater, J. Hazard. Mater., 145 (2007) 277–286.
  21. B.K. Körbahti, S. Taşyürek, Electrochemical oxidation of sulfadiazine antibiotic using boron-doped diamond anode: application of response surface methodology for process optimization, Desal. Wat. Treat., 57 (2016) 2522–2533.
  22. K. Jardak, A. Dirany, P. Drogui, M.E. Khakani, Statistical optimization of electrochemical oxidation of ethylene glycol using response surface methodology, Process Saf. Environ. Prot., 105 (2017) 12–20.
  23. S.J. Georgea, R. Gandhimathia, P.V. Nidheesha, S.T. Ramesh, Optimization of salicylic acid removal by electro Fenton process in a continuous stirred tank reactor using response surface methodology, Desal. Wat. Treat., 57 (2016) 4234–4244.
  24. S.Y. Guvenc, H.S. Erkan, G. Varank, M.S. Bilgili, G.O. Engin, Optimization of paper mill industry wastewater treatment by electrocoagulation and electro-Fenton processes using response surface methodology, Water Sci. Technol., 76 (2017) 2015–2031.
  25. J. Meijide, E. Rosales, M. Pazos, M.A. Sanromán, p-Nitrophenol degradation by electro-Fenton process: pathway, kinetic model and optimization using central composite design, Chemosphere, 185 (2017) 726–736.
  26. W.L. Chou, C.T. Wang, C.P. Chang, M.H. Chung, Y.M. Kuo, Removal of color and cod from dyeing wastewater by paired electrochemical oxidation, Fresenius Environ. Bull., 20 (2011) 78–85.
  27. P.V. Nidheesh, R. Gandhimathi, Removal of Rhodamine B from aqueous solution using graphite–graphite electro-Fenton system, Desal. Wat. Treat., 52 (2014) 1872–1877.