References

  1. K.K. Kesari, R. Soni, Q.M.S. Jamal, P. Tripathi, J.A. Lal, N.K. Jha, M.H. Siddiqui, P. Kumar, V. Tripathi, J. Ruokolainen, Wastewater treatment and reuse: a review of its applications and health implications, Water Air Soil Pollut., 232 (2021) 208, doi: 10.1007/s11270-021-05154-8.
  2. A. Nasiri, M. Malakootian, M.A. Shiri, G. Yazdanpanah, M. Nozari, CoFe2O4@methylcellulose synthesized as a new magnetic nanocomposite to tetracycline adsorption: modeling, analysis, and optimization by response surface methodology, J. Polym. Res., 28 (2021) 192, doi: 10.1007/s10965-021-02540-y.
  3. U. Water, Summary Progress Update 2021: SDG 6—Water and Sanitation For All, Geneva, Switzerland, 2021.
  4. M. Malakootian, J. Smith, M.A. Gharaghani, H. Mahdizadeh, A. Nasiri, G. Yazdanpanah, Decoloration of textile Acid Red 18 dye by hybrid UV/COP advanced oxidation process using ZnO as a catalyst immobilized on a stone surface, Desal. Water Treat., 182 (2020) 385–394.
  5. A. Mateus, J. Torres, W. Marimon-Bolivar, L. Pulgarín, Implementation of magnetic bentonite in food industry wastewater treatment for reuse in agricultural irrigation, Water Resour. Ind., 26 (2021) 100154, doi: 10.1016/j.wri.2021.100154.
  6. M. Darvishmotevalli, A. Zarei, M. Moradnia, M. Noorisepehr, H. Mohammadi, Optimization of saline wastewater treatment using electrochemical oxidation process: prediction by RSM method, MethodsX, 6 (2019) 1101–113.
  7. N. Javid, A. Nasiri, M. Malakootian, Removal of nonylphenol from aqueous solutions using carbonized date pits modified with ZnO nanoparticles, Desal. Water Treat., 141 (2019) 140–148.
  8. H. Mahdizadeh, A. Nasiri, M.A. Gharaghani, G. Yazdanpanah, Hybrid UV/COP advanced oxidation process using ZnO as a catalyst immobilized on a stone surface for degradation of acid red 18 dye, MethodsX, 7 (2020) 101118, doi: 10.1016/j. mex.2020.101118.
  9. M. Afsharnia, B. Naraghi, J. Mardaneh, M. Kianmehr, H. Biglari, The data of Escherichia coli strains genes in different types of wastewater, Data Brief, 21 (2018) 763–766.
  10. S. Rajabi, A. Nasiri, M. Hashemi, Enhanced activation of persulfate by CuCoFe2O4@MC/AC as a novel nanomagnetic heterogeneous catalyst with ultrasonic for metronidazole degradation, Chemosphere, 286 (2022) 131872, doi: 10.1016/j.chemosphere.2021.131872.
  11. A. Nasiri, S. Rajabi, A. Amiri, M. Fattahizade, O. Hasani, A. Lalehzari, M. Hashemi, Adsorption of tetracycline using CuCoFe2O4@chitosan as a new and green magnetic nanohybrid adsorbent from aqueous solutions: isotherm, kinetic and thermodynamic study, Arabian J. Chem., 15 (2022) 104014, doi: 10.1016/j.arabjc.2022.104014.
  12. M. Afsharnia, M. Kianmehr, H. Biglari, A. Dargahi, A. Karimi, Disinfection of dairy wastewater effluent through solar photocatalysis processes, Water Sci. Eng., 11 (2018) 214–219.
  13. M. Malakootian, M. Hashemi, A. Toolabi, A. Nasiri, Investigation of nickel removal using poly(amidoamine) generation 4 dendrimer (PAMAM G4) from aqueous solutions, J. Eng. Res. (Kuwait), 6 (2018) 13–23.
  14. M. Malakootian, K. Kannan, M.A. Gharaghani, A. Dehdarirad, A. Nasiri, Y.D. Shahamat, H. Mahdizadeh, Removal of metronidazole from wastewater by Fe/charcoal micro electrolysis fluidized bed reactor, J. Environ. Chem. Eng., 7 (2019) 103457, doi: 10.1016/j.jece.2019.103457.
  15. A. Nasiri, S. Rajabi, M. Hashemi, CoFe2O4@methylcellulose/AC as a new, green, and eco-friendly nano-magnetic adsorbent for removal of Reactive Red 198 from aqueous solution, Arabian J. Chem., 15 (2022) 103745, doi: 10.1016/j.arabjc.2022.103745.
  16. A. Nasiri, S. Rajabi, M. Hashemi, H. Nasab, CuCoFe2O4@MC/ AC as a new hybrid magnetic nanocomposite for metronidazole removal from wastewater: bioassay and toxicity of effluent, Separation and Purification Technology, (2022) 121366, doi: 10.1016/j.seppur.2022.121366.
  17. M. Malakootian, H. Mahdizadeh, M. Khavari, A. Nasiri, M.A. Gharaghani, M. Khatami, E. Sahle-Demessie, R.S. Varma, Efficiency of novel Fe/charcoal/ultrasonic micro-electrolysis strategy in the removal of Acid Red 18 from aqueous solutions, J. Environ. Chem. Eng., 8 (2020) 103553, doi: 10.1016/j. jece.2019.103553.
  18. S. Momenia, M. Alimohammadia, K. Naddafia, R. Nabizadeha, F. Changania, A. Zareid, M. Rahmatiniae, Study of sludge from the largest wastewater treatment plant in the Middle East (southern Tehran, Iran) based on chemical and microbiological parameters for use in agriculture, Desal. Water Treat., 160 (2019) 153–160.
  19. M. Malakootian, A. Nasiri, A.N. Alibeigi, H. Mahdizadeh, M.A. Gharaghani, Synthesis and stabilization of ZnO nanoparticles on a glass plate to study the removal efficiency of acid red 18 by hybrid advanced oxidation process (ultraviolet/ZnO/ultrasonic), Desal. Water Treat., 170 (2019) 325–336.
  20. M. Malakootian, A. Nasiri, M.R. Heidari, Removal of phenol from steel plant wastewater in three dimensional electrochemical (TDE) process using CoFe2O4@AC/H2O2, Zeitschrift fur Physikalische Chemie, 234 (2020) 1661–1679.
  21. M. Malakootian, A. Nasiri, M. Khatami, H. Mahdizadeh, P. Karimi, M. Ahmadian, N. Asadzadeh, M.R. Heidari, Experimental data on the removal of phenol by electro-H2O2 in presence of UV with response surface methodology, MethodsX, 6 (2019) 1188–1193.
  22. M.M. Amin, F. Karimi, A. Fatehizadeh, H. Movahedian-Attar, Comparison of horizontal and vertical constructed wetlands with coagulation–flocculation–filtration unit efficiencies in the polishing of industrial wastewater effluent: a case study of Mourchekhort Industrial Estate Wastewater Treatment Plant, Iran, J. Health Syst. Res., 17 (2022) 250–260.
  23. U.S.E.P.A.E.G. Division, E. Monitoring, S. Laboratory, Sampling and Analysis Procedures for Screening of Industrial Effluents for Priority Pollutants, US EPA, Environmental Monitoring and Support Laboratory, 1977.
  24. U.S.E.P.A.O.o.W.M.M.S. Division, N.R.M.R.L.T. Transfer, S. Division, Guidelines for Water Reuse, US Environmental Protection Agency, 2004.
  25. A. Nasiri, M. Malakootian, M.R. Heidari, S.N. Asadzadeh, CoFe2O4@methylcelloluse as a new magnetic nano biocomposite for sonocatalytic degradation of Reactive Blue 19, J. Polym. Environ., 29 (2021) 2660–2675.
  26. A. Nasiri, F. Tamaddon, M.H. Mosslemin, M. Faraji, A microwave assisted method to synthesize
    nano-CoFe2O4@methyl cellulose as a novel metal–organic framework for antibiotic degradation, MethodsX, 6 (2019) 1557–1563.
  27. F. Tamaddon, M.H. Mosslemin, A. Asadipour, M.A. Gharaghani, A. Nasiri, Microwave-assisted preparation of ZnFe2O4@ methyl cellulose as a new nano-biomagnetic photocatalyst for photodegradation of metronidazole, Int. J. Biol. Macromol., 154 (2020) 1036–1049.
  28. L.T. Phan, H. Schaar, E. Saracevic, J. Krampe, N. Kreuzinger, Effect of ozonation on the biodegradability of urban wastewater treatment plant effluent, Sci. Total Environ., 812 (2022) 152466, doi: 10.1016/j.scitotenv.2021.152466.
  29. C. Kienle, I. Werner, S. Fischer, C. Lüthi, A. Schifferli, H. Besselink, M. Langer, C.S. McArdell, E.L. Vermeirssen, Evaluation of a full-scale wastewater treatment plant with ozonation and different post-treatments using a broad range of in vitro and in vivo bioassays, Water Res., 212 (2022) 118084., doi: 10.1016/j.watres.2022.118084
  30. D.L. Cunha, A.S. da Silva, R. Coutinho, M. Marques, Optimization of ozonation process to remove psychoactive drugs from two municipal wastewater treatment plants, Water Air Soil Pollut., 233 (2022) 67, doi: 10.1007/s11270-022-05541-9.
  31. K. van Gijn, Y. Zhao, A. Balasubramaniam, H.A. de Wilt, L. Carlucci, A.A.M. Langenhoff, H.H.M. Rijnaarts, The effect of organic matter fractions on micropollutant ozonation in wastewater effluents, Water Res., 222 (2022) 118933, doi: 10.1016/j.watres.2022.118933.
  32. C. Nannou, E. Kaprara, S. Psaltou, M. Salapasidou, P.-A. Palasantza, P. Diamantopoulos, D.A. Lambropoulou, M. Mitrakas, A. Zouboulis, Monitoring of a broad set of pharmaceuticals in wastewaters by high-resolution mass spectrometry and evaluation of heterogenous catalytic ozonation for their removal in a pre-industrial level unit, Analytica, 3 (2022) 195–212.
  33. A. Pistocchi, N.A. Alygizakis, W. Brack, A. Boxall, I.T. Cousins, J.E. Drewes, S. Finckh, T. Gallé, M.A. Launay, M.S. McLachlan, M. Petrovic, T. Schulze, J. Slobodnik, T. Ternes, A. Van Wezel, P. Verlicchi, C. Whalley, European scale assessment of the potential of ozonation and activated carbon treatment to reduce micropollutant emissions with wastewater, Sci. Total Environ., 848 (2022) 157124, doi: 10.1016/j.scitotenv.2022.157124.
  34. H. Company, Hach Water Analysis Handbook, Hach Company, 1992.
  35. E.W. Rice, R.B. Baird, A.D. Eaton, L.S. Clesceri, Standard Methods for the Examination of Water and Wastewater, American Public Health Association, Washington, D.C., 2012.
  36. S.M. de Arruda Guelli Ulson de Souza, K.A.S. Bonilla, A.A.U. de Souza, Removal of COD and color from hydrolyzed textile azo dye by combined ozonation and biological treatment, J. Hazard. Mater., 179 (2010) 35–42.
  37. 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.
  38. A. Fernandes, G. Boczkaj, J. Głazowska, R. Tomczak-Wandzel, M. Kamiński, Comparison of ozonation and evaporation as treatment methods of recycled water for bioethanol fermentation process, Waste Biomass Valorization, 9 (2018) 1141–1149.
  39. Y. Zhuang, H. Ren, J. Geng, Y. Zhang, Y. Zhang, L. Ding, K. Xu, Inactivation of antibiotic resistance genes in municipal wastewater by chlorination, ultraviolet, and ozonation disinfection, Environ. Sci. Pollut. Res., 22 (2015) 7037–7044.
  40. M. Ibáñez, E. Gracia-Lor, L. Bijlsma, E. Morales, L. Pastor, F. Hernández, Removal of emerging contaminants in sewage water subjected to advanced oxidation with ozone, J. Hazard. Mater., 260 (2013) 389–398.
  41. D. Beniwal, L. Taylor-Edmonds, J. Armour, R.C. Andrews, Ozone/peroxide advanced oxidation in combination with biofiltration for taste and odour control and organics removal, Chemosphere, 212 (2018) 272–281.
  42. S. Zheng, C. Cui, Q. Liang, X. Xia, F. Yang, Ozonation performance of WWTP secondary effluent of antibiotic manufacturing wastewater, Chemosphere, 81 (2010) 1159–1163.
  43. D. Wu, Z. Yang, W. Wang, G. Tian, S. Xu, A. Sims, Ozonation as an advanced oxidant in treatment of bamboo industry wastewater, Chemosphere, 88 (2012) 1108–1113.
  44. M.A. Ahangarnokolaei, P. Attarian, B. Ayati, H. Ganjidoust, L. Rizzo, Life cycle assessment of sequential and simultaneous combination of electrocoagulation and ozonation for textile wastewater treatment, J. Environ. Chem. Eng., 9 (2021) 106251, doi: 10.1016/j.jece.2021.106251.
  45. W.H. Organization, WHO Guidelines for the Safe Use of Wastewater Excreta and Greywater, World Health Organization, 1, 2006.
  46. R. Summerfelt, R. Clayton, Proceedings: Aquaculture Effluents: Overview of EPA Guidelines and Standards and BMPs For Ponds, Raceways, and Recycle Culture Systems, IOWA State University, (NCRAC) 2003.
  47. C. Tamulonis, Environmental Assessment for the Final Effluent Limitations Guidelines, Pretreatment Standards for New and Existing Sources and New Source Performance Standards, United States Environmental Protection Agency, 2000.
  48. A. Aziz, F. Basheer, A. Sengar, S.U. Khan, I.H. Farooqi, Biological wastewater treatment (anaerobic–aerobic) technologies for safe discharge of treated slaughterhouse and meat processing wastewater, Sci. Total Environ., 686 (2019) 681–708.
  49. E. Iloms, O.O. Ololade, H.J.O. Ogola, R. Selvarajan, Investigating industrial effluent impact on municipal wastewater treatment plant in Vaal, South Africa, Int. J. Environ. Res. Public Health, 17 (2020) 1096, doi: 10.3390/ijerph17031096.
  50. J.P. Ribeiro, M.I. Nunes, Recent trends and developments in Fenton processes for industrial wastewater treatment – a critical review, Environ. Res., 197 (2021) 110957, doi: 10.1016/j.envres.2021.110957.
  51. A.A. Owodunni, S. Ismail, Revolutionary technique for sustainable plant-based green coagulants in industrial wastewater treatment—a review, J. Water Process Eng., 42 (2021) 102096, doi: 10.1016/j.jwpe.2021.102096.