References

1. IPPC, BREF: Integrated Pollution Prevention and Control Reference Document on Best Available Techniques (BAT) for the Textile Industry, European Commission, Brussels, Belgium, 2003.
2. G. Yıldız, G. Insel, E.U. Cokgor, D. Orhon, Respirometric assessment of biodegradation for acrylic fibre-based carpet finishing wastewaters, Water Sci. Technol., 55 (2007) 99–106.
3. ITC International Trade Center, Trade Statistics for International Business Development, List of Exporters for the Selected Product, Product: 57 Carpets and Other Textile Floor Coverings, 2009. Available at: https://www.trademap.org/
4. A. Bertea, A.P. Bertea, Decolorisation and Recycling of Textile Wastewater, Performantica Ed, Iasi, Romania, 2008.
5. G. Capar, U. Yetis, L. Yilmaz, Membrane based strategies for the pre-treatment of acid dye bath wastewaters, J. Hazard. Mater., B135 (2006) 423–430.
6. C. Tang, V. Chen, Nanofiltration of textile wastewater for water reuse, Desalination, 143 (2002) 11–20.
7. M. Grekova-Vasileva, Y. Topalova, Enzyme activities and shifts in microbial populations associated with activated sludge treatment of textile effluents, Biotechnol. Biotechnol. Equip., 23 (2009) 1136–1142.
8. K. Sarayu, S. Sandhya, Current technologies for biological treatment of textile wastewater–a review, Appl. Biochem. Biotechnol., 167 (2011) 645–661.
9. S. Dogruel, F. Germirli Babuna, I. Kabdaslı, G. Insel, D. Orhon, Effect of stream segregation on ozonation for the removal of significant COD fractions from textile wastewater, J. Chem. Technol. Biotechnol., 78 (2003) 6–14.
10. M.I. Aydin, B. Yuzer, A. Ongen, H.E. Okten, H. Selcuk, Comparison of ozonation and coagulation decolorization methods in real textile wastewater, Desal. Water Treat., 103 (2018) 55–64.
11. F. Ilhan, K. Ulucan-Altuntas, C. Dogan, U. Kurt, Treatability of raw textile wastewater using Fenton process and its comparison with chemical coagulation, Desal. Water Treat., 162 (2019) 142–148.
12. J.J. Pignatello, Dark and photoassisted Fe3+ catalyzed degradation of chlorophenoxy herbicides by hydrogen peroxide, Environ. Sci. Technol., 26 (1992) 944–951.
13. H.J.H. Fenton, Oxidation of tartaric acid in presence of iron, J. Chem. Soc. Trans., 65 (1894) 899–911.
14. G. Vilardi, J. Rodríguez-Rodríguez, J.M. Ochando-Pulido, L. Di Palma, N. Verdone, Fixed-bed reactor scale-up and modelling for Cr(VI) removal using nano iron-based coated biomass as packing material, Chem. Eng. J., 361 (2019) 990–998.
15. G. Vilardi, J. Rodríguez-Rodríguez, J.M. Ochando-Pulido, N. Verdone, A. Martinez-Ferez, L. Di Palma, Large laboratoryplant application for the treatment of a tannery wastewater by Fenton oxidation: Fe(II) and nZVI catalysts comparison and kinetic modelling, Process Saf. Environ., 117 (2018) 629–638.
16. P. Kumar, T.T. Teng, S. Chand, K.L. Wasewar, Fenton oxidation of carpet dyeing wastewater for removal of COD and color, Desal. Water Treat., 28 (2011) 260–264.
17. M. Jonstrup, M. Punzi, B. Mattiasson, Comparison of anaerobic pre-treatment and aerobic post-treatment coupled to photo-Fenton oxidation for degradation of azo dyes, J. Photochem. Photobiol. A, 224 (2011) 55–61.
18. M. Solis, A. Solis, H.I. Perez, N. Manjarrez, M. Flores, Microbial decolouration of azo dyes: a review, Process Biochem., 47 (2012) 1723–1748.
19. M.S. Lucas, A.A. Dias, A. Sampaio, C. Amaral, J.A. Peres, Degradation of a textile reactive azo dye by a combined chemical–biological process: Fenton’s reagent-yeast, Water Res., 41 (2007) 1103–1109.
20. M. Bressan, L. Liberatore, N. D’alessandro, L. Tonucci, C. Belli, G. Ranalli, Improved combined chemical and biological treatments of olive oil mill wastewaters, J. Agric. Food Chem., 52 (2004) 1228–1233.
21. S.F. Kang, C.H. Liao, M.C. Chen, Peroxidation and coagulation of textile wastewater by the Fenton process, Chemosphere, 46 (2002) 923–928.
22. N. Jaafarzadeh, A. Takdastan, S. Jorfi, F. Ghanbari, M. Ahmadi, G. Barzega, The performance study on ultrasonic/Fe₃O₄/H₂O₂ for degradation of azodye and real textile wastewater treatment, J. Mol. Liq., 256 (2018) 462–470.
23. B.K. Mert, T. Yonar, M.Y. Kilic, K. Kestioglu, Pre-treatment studies on olive oil mill effluent using physicochemical, Fenton and Fenton-like oxidations processes, J. Hazard. Mater., 174 (2010) 122–128.
24. M. Perez, F. Torrades, J.A. Garcia-Hortal, X. Domenech, J. Perel, Removal of organic contaminants in paper pulp treatment effluents under Fenton and photo Fenton conditions, Appl. Catal. B, 36 (2002) 63–74.
25. C.C. Kuan, S.Y. Chang, S.L.M. Schroeder, Fenton-like oxidation of 4-chlorophenol: homogeneous or heterogeneous?, Ind. Eng. Chem. Res., 54 (2015) 8122–8129.
26. A.R. Fernandez-Alba, D. Hernando, A. Aguera, J. Caceres, S. Malato, Toxicity assays: a way for evaluating AOPs efficiency, Water Res., 36 (2002) 4255–4262.
27. F. Lange, S. Cornelissen, D. Kubac, M.M. Sein, J. von Sonntag, C.B. Hannich, Degradation of macrolide antibiotics by ozone: a mechanistic case study with clarithromycin, Chemosphere, 65 (2006) 17–23.
28. A. Chatzitakis, C. Berberidou, I. Paspaltsis, G. Kyriakou, T. Skalviadis, I. Poulios, Photocatalytic degradation and drug activity reduction of chloramphenicol, Water Res., 42 (2008) 386–394.
29. I.A. Alaton, S. Teksoy, Acid dye bath effluent pretreatment using Fenton’s reagent: process optimization, reaction kinetics and effects on acute toxicity, Dyes Pigm., 73 (2007) 31–39.
30. D. Huang, C. Hu, G. Zeng, M. Cheng, P. Xu, X. Gong, R. Wang, W. Xue, Combination of Fenton processes and biotreatment for wastewater treatment and soil remediation, Sci. Total Environ., 574 (2017) 1599–1610.
31. ISO 8192, Water quality -Test for Inhibition of Oxygen Consumption by Activated Sludge, International Standards Organization, Switzerland, 2007.
32. ISO 6060, Water Quality-Determination of the Chemical Oxygen Demand, International Standards Organization, Switzerland, 1986.
33. APHA, AWWA, WPCP, Standard Methods for the Examination of Water and Wastewater, 22nd ed., L.S. Clesceri, A.E. Greenberg, A.D. Eaton, Eds., American Public Health Association, Washington, DC, USA, 2012.
34. Z. Zhang, J. Peng, C. Srinivasakannan, Z. Zang, L. Zang, Y. Fernandez, J.A. Menendez, Leaching zinc from spent catalyst: process optimization using response surface methodology, J. Hazard. Mater., 176 (2010) 1113–1117.
35. D.C. Montgomery, Design and Analysis of Experiments, 8th ed., John Wiley and Sons, New York, 2008.
36. I. Arslan-Alaton, B.H. Gursoy, A. Akyol, M. Kobya, M. Bayramoglu, Modeling and optimization of acid dye manufacturing wastewater treatment with Fenton’s reagent: comparison with electrocoagulation treatment results and effects on activated sludge inhibition, Water Sci. Technol., 62 (2010) 209–216.
37. G. Vilardi, M. Ochando-Pulido, M. Stoller, N. Verdone, L. Di Palma, Fenton oxidation and chromium recovery from tannery wastewater by means of iron-based coated biomass as heterogeneous catalyst in fixed-bed columns, Chem. Eng. J., 351 (2018) 1–11.
38. R.M. Sellers, Spectrophotometric determination of hydrogen peroxide using potassium titanium (IV) oxalate, Analyst, 105 (1990) 950–954.
39. W.Z. Tang, C.P. Huang, Stoichiometry of Fenton’s reagent in the oxidation of chlorinated aliphatic organic pollutants, Environ. Technol., 18 (1997) 13–23.
40. G. Yildiz, G. Insel, E.U. Cokgor, D. Orhon, Biodegradation kinetics of slowly biodegradable substrate in polyamide carpet finishing wastewater, J. Chem. Technol. Biotechnol., 83 (2008) 34–40.
41. F.M. Pang, S.P. Teng, T.T. Teng, A.K.M. Omar, Heavy metals removal by hydroxide precipitation and coagulation flocculation methods from aqueous solutions, Water Qual. Res. J., 44 (2009) 174–182.