References

1. M.A. Iribarnegaray, M.S. Rodriguez-Alvarez, L.B. Moraña, W.A. Tejerina, L. Seghezzo, Management challenges for a more decentralized treatment and reuse of domestic wastewater in metropolitan areas, J. Water Sanit. Hyg. Dev., 8 (2017) 113–122.
2. S.A. Mousavi, F. Khodadoost, Effects of detergents on natural ecosystems and wastewater treatment processes: a review, Environ. Sci. Pollut. Res., 26 (2019) 26439–26448.
3. Z.M. Yaseen, T.T. Zigale, Tiyasha, D. Ravi Kumar, S.Q. Salih, S. Awasthi, T.M. Tung, N. Al-Ansari, S.K. Bhagat, Laundry wastewater treatment using a combination of sand filter, biochar and teff straw media, Sci. Rep., 9 (2019) 18709, doi: 10.1038/s41598-019-54888-3.
4. K.C. Ho, Y.H. Teow, J.Y. Sum, Z.J. Ng, A.W. Mohammad, Water pathways through the ages: integrated laundry wastewater treatment for pollution prevention, Sci. Total Environ., 760 (2021) 143966, doi: 10.1016/j.scitotenv.2020.143966.
5. S. De Gisi, P. Casella, C.M. Cellamare, M. Ferraris, L. Petta, M. Notarnicola, Wastewater reuse, Encycl. Sustain. Technol., 4 (2017) 53–68.
6. O. Lade, Z. Gbagba, Sustainable water supply: potential of recycling laundry wastewater for domestic use, J. Civ. Eng. Environ. Sci., 26 (2017) 56–60.
7. K.N. Sheth, M. Patel, M.D. Desai, A study on characterization and treatment of laundry effluent, Int. J. Innov. Res. Sci. Technol., 4 (2017) 50–55.
8. J. Luo, Q. Zhang, L. Wu, Q. Feng, F. Fang, Z. Xue, C. Li, J. Cao, Promoting the anaerobic production of short-chain fatty acids from food wastes driven by the reuse of linear alkylbenzene sulphonates-enriched laundry wastewater, Bioresour. Technol., 282 (2019) 301–309.
9. V.V. Patil, P.R. Gogate, A.P. Bhat, P.K. Ghosh, Treatment of laundry wastewater containing residual surfactants using combined approaches based on ozone, catalyst and cavitation, Sep. Purif. Technol., 239 (2020) 116594, doi: 10.1016/j.seppur.2020.116594.
10. M. Oteng-Peprah, M.A. Acheampong, N.K. deVries, Greywater characteristics, treatment systems, reuse strategies and user perception—a review, Water Air Soil Pollut., 229 (2018) 255,
    doi: 10.1007/s11270-018-3909-8.
11. A.C. Kogawa, B.G. Cernic, L.G.D. do Couto, H.R.N. Salgado, Synthetic detergents: 100 years of history, Saudi Pharm. J., 25 (2017) 934–938.
12. H.F.R. Schröder, H.J. José, W. Gebhardt, R.F.P.M. Moreira, J. Pinnekamp, Biological wastewater treatment followed by physico-chemical treatment for the removal of fluorinated surfactants, Water Sci. Technol., 61 (2010) 3208–3215.
13. K.Z. Benis, A. Behnami, E. Aghayani, S. Farabi, M. Pourakbar, Water recovery and on-site reuse of laundry wastewater by a facile and cost-effective system: combined biological and advanced oxidation process, Sci. Total Environ., 789 (2021) 148068, doi: 10.1016/j.scitotenv.2021.148068.
14. D.I. Kern, R. de O. Schwaickhardt, G. Mohr, E.A. Lobo, L.T. Kist, Ê.L. Machado, Toxicity and genotoxicity of hospital laundry wastewaters treated with photocatalytic ozonation, Sci. Total Environ., 443 (2013) 566–572.
15. O. Fónagy, E. Szabó-Bárdos, O. Horváth, G. Kiss, Application of ozonation and silveration for heterogeneous photocatalytic degradation of an aromatic surfactant, J. Photochem. Photobiol., A, 366 (2018) 152–161.
16. E.T. Wahyuni, R. Roto, M. Sabrina, V. Anggraini, N.F. Leswana, A.C. Vionita, Photodegradation of detergent anionic surfactant in wastewater using UV/TiO₂/H₂O₂ and UV/Fe²⁺/H₂O₂ processes, Am. J. Appl. Chem., 4 (2016) 174–180.
17. M. Ghaderpoori, M.H. Dehghani, Investigating the removal of linear alkyl benzene sulfonate from aqueous solution by ultraviolet irradiation and hydrogen peroxide process, Desal. Water Treat., 57 (2016) 15208–15212.
18. K. Kuźmiński, A.W. Morawski, M. Janus, Adsorption and photocatalytic degradation of anionic and cationic surfactants on nitrogen-modified TiO₂, J. Surfactants Deterg., 21 (2018) 909–921.
19. T. Razavi, A. Fadaei, M. Sadeghi, S. Shahsavan markadeh, Study of the impact of combination of ZnO nanoparticles with ultraviolet radiation (photocatalytic process) on the removal of anionic surfactant linear alkyl benzene sulfonate (LAS) from aqueous solutions using Taguchi statistical method, Desal. Water Treat., 57 (2016) 28755–28761.
20. M.B. Miranzadeh, R. Zarjam, R. Dehghani, M. Haghighi, H.Z. Badi, M.A. Marzaleh, A.M. Tehrani, Comparison of Fenton and photo-Fenton processes for removal of linear alkyle benzene sulfonate (LAS) from aqueous solutions, Pol. J. Environ. Stud., 25 (2016) 1639–1648.
21. A.J. Barik, P.R. Gogate, Degradation of 2,4-dichlorophenol using combined approach based on ultrasound, ozone and catalyst, Ultrason. Sonochem., 36 (2017) 517–526.
22. E.M. Cuerda-Correa, M.F. Alexandre-Franco, C. Fernández- González, Advanced oxidation processes for the removal of antibiotics from water: an overview, Water, 12 (2020) 102, doi: 10.3390/w12010102.
23. S.N. Malik, P.C. Ghosh, A.N. Vaidya, S.N. Mudliar, Hybrid ozonation process for industrial wastewater treatment: principles and applications: a review, J. Water Process Eng., 35 (2020) 101193, doi: 10.1016/j.jwpe.2020.101193.
24. W.N. Agosto, Dual-Use Space Technology Transfer Conference and Exhibition, Conference Proceedings, 2013. Available at https://ntrs.nasa.gov/citations/19960022615
25. J. Wang, Z. Bai, Fe-based catalysts for heterogeneous catalytic ozonation of emerging contaminants in water and wastewater, Chem. Eng. J., 312 (2017) 79–98.
26. M.İ. Bahtiyari, H. Benli, Comparison of ozone-based cold bleaching processes with conventional pretreatment of cotton, Ozone Sci. Eng.: The J. Int. Ozone Assoc., 42 (2020) 450–460.
27. R.G. Rice, M. DeBrum, D. Cardis, C. Tapp, The ozone laundry handbook: a comprehensive guide for the proper application of ozone in the commercial laundry industry, Ozone Sci. Eng.: The J. Int. Ozone Assoc., 31 (2009) 339–347.
28. R.B. Baird, A.D. Eaton, E.W. Rice, Eds., Standard Methods for the Examination of Water and Wastewater, 23rd ed., American Public Health Association, American Water Works Association, Water Environment Federation, Washington D.C., 2017.
29. C.G. Joseph, Y.Y. Farm, Y.H. Taufiq-Yap, C.K. Pang, J.L. Nga, G.L. Puma, Ozonation treatment processes for the remediation of detergent wastewater: a comprehensive review, J. Environ. Chem. Eng., 9 (2021) 106099, doi: 10.1016/j.jece.2021.106099.
30. J.M. Alvarez, C.J. Seijas, G.L. Bianchi, Elimination of volatile organic compounds in paint drying by absorption reaction in water combined with the ozone oxidation technique, Environ. Adv., 2 (2020) 100017, doi: 10.1016/j.envadv.2020.100017.
31. P.N. Humphreys, J. Hook, S. Rout, Evaluation of the cleaning efficiency of microfibre cloths processed via an ozonated laundry system, J. Infect. Prev., 13 (2012) 104–108.
32. R. Tanveer, A. Yasar, H. Nissar, Amt-ul-Bari Tabinda, A.-S. Nizami, Energy efficiency of the advance physical system for the complete treatment of dye-bath effluents, Desal. Water Treat., 237 (2021) 271–283.
33. B. Giménez, N. Graiver, L. Giannuzzi, N. Zaritzky, Treatment of beef with gaseous ozone: physico-chemical aspects and antimicrobial effects on heterotrophic microflora and listeria monocytogenes, Food Control, 121 (2021) 107602, doi: 10.1016/j.foodcont.2020.107602.
34. R. Tanveer, A. Yasar, Amt-ul-Bari Tabinda, A. Ikhlaq, H. Nissar, A.-S. Nizami, Comparison of ozonation, Fenton, and photo-Fenton processes for the treatment of textile dye-bath effluents integrated with electrocoagulation, J. Water Process Eng., 46 (2022) 102547, doi: 10.1016/j.jwpe.2021.102547.