References

1. C. Caretti, C. Lubello, Wastewater disinfection with PAA and UV combined treatment: a pilot plant study, Water Res., 37 (2003) 2365–2371.
2. J. Koivunen, H. Heinonen-Tanski, Inactivation of enteric microorganisms with chemical disinfectants, UV irradiation and combined chemical/UV treatments, Water Res., 39 (2005) 1519–1526.
3. B.S. Souza, R.F. Dantas, A. Cruz, C. Sans, S. Esplugas, M. Dezotti, Photochemical oxidation of municipal secondary effluents at low H₂O₂ dosage: study of hydroxyl radical scavenging and process performance, Chem. Eng. J., 237 (2014) 268–276.
4. J.A. Malvestiti, R.F. Dantas, Influence of industrial contamination in municipal secondary effluent disinfection by UV/H₂O₂, Environ. Sci. Pollut. Res., 13 (2019) 13286–13298.
5. J.B. Safarzadeh-Amiri, J.R. Bolton, S.R. Cater, The use of iron in advanced oxidation processes, J. Adv. Oxid. Technol., 1 (1996) 18–26.
6. W.P. Ting, M.C. Lu, Y.H. Huang, The reactor design and comparison of Fenton, electro-Fenton and photoelectron-Fenton processes for mineralization of benzene sulfonic acid (BSA), J. Hazard. Mater., 156 (2008) 421–428.
7. A. Babuponnusami, K. Muthukumar, Advanced oxidation of phenol: a comparison between Fenton, electro-Fenton, sonoelectro-Fenton and photo-electro-Fenton processes, Chem. Eng. J., 183 (2012) 1–9.
8. S. Malato, J. Blanco, M.I. Maldonado, I. Oller, W. Gernjak, L. Pérez-Estrada, Coupling solar photo-Fenton and biotreatment at industrial scale: main results of a demonstration plant, J. Hazard. Mater., 146 (2007) 440–446.
9. S. Malatoa, P. Fernández-Ibáñez, M.I. Maldonado, J. Blanco, W. Gernjak, Decontamination and disinfection of water by solar photocatalysis: recent overview and trends, Catal. Today, 147 (2009) 1–59.
10. A. Zapata, I. Oller, L. Rizzo, S. Hilgert, M.I. Maldonado, J.A. Sánchez-Pérez, S. Malato, Evaluation of operating parameters involved in solar photo-Fenton treatment of wastewater: interdependence of initial pollutant concentration, temperature and iron concentration, Appl. Catal., B, 97 (2010) 292–298.
11. L. Santos-Juanes, J.L.G. Sánchez, J.L.C. López, I. Oller, S. Malato, J.A.S. Pérez, Dissolved oxygen concentration: a key parameter in monitoring the photo-Fenton process, Appl. Catal., B, 104 (2011) 316–323.
12. A.C. Reina, S. Miralles-Cuevas, J.L.C. López, J.A.S. Sánchez, Pyrimethanil degradation by photo-Fenton process: influence of iron and irradiance level on treatment cost, Sci. Total Environ., 605 (2017) 230–237.
13. W.G. Barb, J.H. Baxendale, P. George, K.R. Hargrave, Reactions of ferrous and ferric ions with hydrogen peroxide. Part 3 - Reactions in the presence of α: α'-dipyridyl, Trans. Faraday Soc., 51 (1955) 935–946.
14. C. Walling, Fenton’s reagent revisited, Acc. Chem. Res., 8 (1975) 125–131.
15. J.J. Pignatello, Dark and photoassisted iron ⁽³⁺⁾-catalyzed degradation of chlorophenoxy herbicides by hydrogen peroxide, Environ. Sci. Technol., 26 (1992) 944–951.
16. P. Villegas-Guzman, S. Giannakis, S. Rtimi, D. Grandjean, M. Bensimon, L.F. Alencastro, R. Torres-Palma, C. Pulgarin, A green solar photo-Fenton process for the elimination of bacteria and micropollutants in municipal wastewater treatment using mineral iron and natural organic acids, Appl. Catal., B, 219 (2017) 538–549.
17. M.M. Rashad, A.A. Ibrahim, D.A. Rayan, M.M.S. Sanad, I.M. Helmy, Photo-Fenton-like degradation of Rhodamine B dye from waste water using iron molybdate catalyst under visible light irradiation, Environ. Nanotechnol. Monit. Manage., 8 (2017) 175–186.
18. Y. Sun, J.J. Pignatello, Chemical treatment of pesticide wastes. Evaluation of iron (III) chelates for catalytic hydrogen peroxide oxidation of 2, 4-D at circumneutral pH, J. Agric. Food Chem., 40 (1992) 322–327.
19. P. Valero, S. Giannakis, R. Mosteo, M.P. Ormad, C. Pulgarin, Comparative effect of growth media on the monitoring of E. coli inactivation and regrowth after solar and photo-Fenton treatment, Chem. Eng. J., 313 (2017) 109–120.
20. X. Feng, Y. Chen, Y. Fang, X. Wang, Z. Wang, T. Tao, Y. Zuo, Photodegradation of parabens by Fe (III)-citrate complexes at circumneutral pH: matrix effect and reaction mechanism, Sci. Total Environ., 472 (2014) 130–136.
21. A. De Luca, R.F. Dantas, S. Esplugas, Assessment of iron chelates efficiency for photo-Fenton at neutral pH, Water Res., 61 (2014) 232–242.
22. P. Villegas-Guzman, J. Silva-Agredo, O. Florez, A.L. Giraldo- Aguirre, C. Pulgarin, R.A. Torres-Palma, Selecting the best AOP for isoxazolyl penicillins degradation as a function of water characteristics: effects of pH, chemical nature of additives and pollutant concentration, J. Environ. Manage., 190 (2017) 72–79.
23. A. De Luca, R.F. Dantas, S. Esplugas, Study of Fe (III)-NTA chelates stability for applicability in photo-Fenton at neutral pH, Appl. Catal., B, 179 (2015) 372–379.
24. S.L.C. Ferreira, A.S. Queiroz, M.S. Fernandes, H.C. Santos, Application of factorial designs and Doehlert matrix in optimization of experimental variables associated with the preconcentration and determination of vanadium and copper in seawater by inductively coupled plasma optical emission spectrometry, Spectrochim. Acta Part B, 57 (2002) 1939–1950.
25. S.L.C. Ferreira, R.E. Bruns, E.G.P. Silva, W.N.L. Santos, C.M. Quintella, J.M. David, J.B. Andrade, M.C. Breitkreitz, I.C.S.F. Jardim, B.B. Neto, Statistical designs and response surface techniques for the optimization of chromatographic systems, J. Chromatogr. A, 1158 (2007) 2–14.
26. J. Malvestiti, E. Fagnani, D.C. Simao, R.F. Dantas, Optimization of UV/H₂O₂ and ozone wastewater treatment by experimental design methodology, Environ. Technol., 40 (2018) 1910–1922.
27. P. Villegas-Guzman, S. Giannakis, R.A.Torres-Palma, C. Pulgarin, Remarkable enhancement of bacterial inactivation in wastewater through promotion of solar photo-Fenton at nearneutral pH by natural organic acids, Appl. Catal., B, 205 (2017) 219–227.