References

1. S. Metsämuuronen, M. Sillanpää, A. Bhatnagar, M. Mänttäri, Natural organic matter removal from drinking water by membrane technology, Sep. Purif. Rev., 43 (2014) 1–61.
2. M. Zazouli, S. Nasseri, A.H. Mahvi, M. Gholami, A. Mesdaghinia, M. Younesian, Retention of humic acid from water by nanofiltration membrane and influence of solution chemistry on membrane performance, J. Environ. Health. Sci. Eng., 5 (2008) 11–18.
3. A.F. Ashery, K. Radwan, M. Rashed, The Effect of pH Control on Turbidity and NOM Removal in Conventional Water Treatment, Proc. 15th International Water Technology Conference, Alexandria, Egypt, 2011.
4. A. Matilainen, Removal of the Natural Organic Matter in the Different Stages of the Drinking Water Treatment Process, Tampereen teknillinen yliopisto Julkaisu-Tampere University of Technology Publication, 2007, p. 651.
5. M.V. Niri, A.H. Mahvi, M. Alimohammadi, M. Shirmardi, H. Golastanifar, M.J. Mohammadi, A. Naeimabadi, M. Khishdost, Removal of natural organic matter (NOM) from an aqueous solution by NaCl and surfactant-modified clinoptilolite. J. Water Health, 13 (2015) 394–405.
6. J. Lowe, M.M. Hossain, Application of ultrafiltration membranes for removal of humic acid from drinking water, Desalination, 218 (2008) 343–354.
7. Y. Wang, J. Le Roux, T. Zhang, J.-P. Croué, Formation of brominated disinfection byproducts from natural organic matter isolates and model compounds in a sulfate radical-based oxidation process, Environ. Sci. Technol., 24 (2014) 14534–14542.
8. E. Bazrafshan, H. Biglari, A.H. Mahvi, Humic acid removal from aqueous environments by electrocoagulation process using iron electrodes, E-J. Chem., 9 (2012) 2453–2461.
9. G. Asgari, A. Ebrahimi, A.S. Mohammadi, G. Ghanizadeh, The investigation of humic acid adsorption from aqueous solutions onto modified pumice with hexadecyl trimethyl ammonium bromide, Int. J. Environ. Health Eng., 2 (2013) 2–20.
10. M.H. Amin, M. Safari, R. Rezaee, Investigating the efficiency of enhanced coagulation process for the removal of humic substances from water, J. Environ. Sci. Technol., 18 (2016) 157–165.
11. S. Moussavi, M. Ehrampoush, A. Mahvi, M. Ahmadian, S. Rahimi, Adsorption of humic acid from aqueous solution on single-walled carbon nanotubes, Asian J. Chem., 25 (2013) 5319–5324.
12. X. Lou, D. Xiao, C. Fang, Z. Wang, J. Liu, Y. Guo, L. Shuyn, Comparison of UV/hydrogen peroxide and UV/peroxydisulfate processes for the degradation of humic acid in the presence of halide ions, Environ. Sci. Pollut. Res. Int., 23 (2016) 4778–4785.
13. D.A. Fearing, J. Banks, S. Guyetand, C.M. Eroles, B. Jefferson, D. Wilson, P. Hillis, A.T. Campbell, S.A. Parsons, Combination of ferric and MIEX^® for the treatment of a humic rich water, Water Res., 38 (2004) 2551–2558.
14. Z. Ke-xin, R. Hong-wei, X. Shu-guang, Performance of combined pre-ozonation and biofiltration for the purification of water from ching yellow river, J. Environ. Sci., 1 (2007) 52–61.
15. K. Babi, K. Koumenides, A. Nikolaou, C. Makri, F. Tzoumerkas, T. Lekkas, Pilot study of the removal of THMs, HAAs and DOC from drinking water by GAC adsorption, Desalination, 210 (2007) 215–224.
16. R. Wang, X. Liu, R. Wu, B. Yu, H. Li, X. Zhang, J. Xie, S.-T. Yang, Fe₃O₄/SiO₂/C nanocomposite as a high-performance Fenton-like catalyst in a neutral environment, RSC Adv., 6 (2016) 8594–8600.
17. R. Rezaee, A. Maleki, A. Jafari, S. Mazloomi, Y. Zandsalimi, A.H. Mahvi, Application of response surface methodology for optimization of natural organic matter degradation by UV/H₂O₂ advanced oxidation process, J. Environ. Health Sci. Eng., 12 (2014) 1–8.
18. S.-T. Yang, W. Zhang, J. Xie, R. Liao, X. Zhang, B. Yu, R. Wu, X. Liu, H. Li, Z. Guo, Fe₃O₄@SiO₂ nanoparticles as a highperformance Fenton-like catalyst in a neutral environment, RSC Adv., 5 (2015) 5458–5463.
19. R. Huang, Z. Fang, X. Fang, E.P. Tsang, Ultrasonic Fentonlike catalytic degradation of bisphenol A by ferroferric oxide (Fe₃O₄) nanoparticles prepared from steel pickling waste liquor, J. Colloid Interface Sci., 436 (2014) 258–266.
20. S. Valizadeh, M. Rasoulifard, M.S. Dorraji, Modified Fe₃O₄-hydroxyapatite nanocomposites as heterogeneous catalysts in three UV, Vis and Fenton like degradation systems, Appl. Surf. Sci., 319 (2014) 358–366.
21. R. Guo, L. Fang, W. Dong, F. Zheng, M. Shen, Magnetically separable BiFeO3 nanoparticles with a γ-Fe₂O₃ parasitic phase: controlled fabrication and enhanced visible-light photocatalytic activity, J. Mater. Chem., 21 (2011) 18645–18652.
22. Z.-T. Hu, B. Chen, T.-T. Lim, Single-crystalline Bi₂Fe₄O₉ synthesized by low-temperature co-precipitation: performance as photo- and Fenton catalysts, RSC Adv., 4 (2014) 27820–2789.
23. R. Huang, Z. Fang, X. Yan, W. Cheng, Heterogeneous sono-Fenton catalytic degradation of bisphenol A by Fe₃O₄ magnetic nanoparticles under neutral condition, Chem. Eng., 197 (2012) 242–249.
24. W. Luo, L. Zhu, N. Wang, H. Tang, M. Cao, Y. She, Efficient removal of organic pollutants with magnetic nanoscaled BiFeO₃ as a reusable heterogeneous Fenton-like catalyst, Environ. Sci. Technol., 44 (2010) 1786–1791.
25. X. Zhang, M. He, J.-H. Liu, R. Liao, L. Zhao, J. Xie, R. Wang, S.T. Yang, H. Wang, Y. Liu, Fe₃O₄@ C nanoparticles as highperformance Fenton-like catalyst for dye decoloration, Chinese. Sci. Bull., 59 (2014) 3406–3412.
26. X. Liu, Q. Zhang, B. Yu, R. Wu, J. Mai, R. Wang, L. Chen, S.T. Yang, Preparation of Fe₃O₄/TiO₂/C nanocomposites and their application in Fenton-Like catalysis for dye decoloration, Catalysts, 6 (2016) 146.
27. S. Yang, L. Yang, X. Liu, J. Xie, X. Zhang, B. Yu, R. Wu, H.L. Li, L.Y. Chen, J. Liu, TiO₂-doped Fe₃O₄ nanoparticles as high-performance Fenton-like catalyst for dye decoloration, Sci. China Technol. Sci., 58 (2015) 858–63.
28. M.A. Nasseri, S.M. Sadeghzadeh, A highly active FeNi₃–SiO₂ magnetic nanoparticles catalyst for the preparation of 4H-benzo [b] pyrans and Spirooxindoles under mild conditions. J. Iran. Chem. Soc., 10 (2013) 1047–1056.
29. X. Ding, Y. Huang, M. Zong, Synthesis and microwave adsorption enhancement property of core–shell FeNi₃@SiO₂-decorated reduced graphene oxide nanosheets. Mater. Lett., 157 (2015) 285–289.
30. A. Eslami, M.M. Amini, A.R. Yazdanbakhsh, A. Mohseni‐Bandpei, A.A. Safari, A. Asadi, N, S co‐doped TiO₂ nanoparticles and nanosheets in simulated solar light for photocatalytic degradation of non‐steroidal anti‐inflammatory drugs in water: a comparative study, J. Chem. Technol. Biotechnol., 91 (2016) 2693–2704.
31. V. Kitsiou, N. Filippidis, D. Mantzavinos, I. Poulios, Heterogeneous and homogeneous photocatalytic degradation of the insecticide imidacloprid in aqueous solutions, Appl. Catal., B, 86 (2009) 27–35.
32. A. Khanna, V.K. Shetty, Solar light induced photocatalytic degradation of Reactive Blue 220 (RB-220) dye with highly efficient Ag@TiO₂ core–shell nanoparticles: a comparison with UV photocatalysis, Solar Energy, 99 (2014) 67–76.
33. X. Ding, Y. Huang, J. Wang, H. Wu, P. Liu, Excellent electromagnetic wave adsorption property of quaternary composites consisting of reduced graphene oxide, polyaniline and FeNi₃@SiO₂ nanoparticles, Appl. Surf. Sci., 357 (2015) 908–914.
34. R. Wang, X. Wang, X. Xi, R. Hu, G. Jiang, Preparation and photocatalytic activity of magnetic Fe₃O₄/SiO₂/TiO₂ composites, Adv. Mater. Sci. Eng., 2012 (2012) 1–8.
35. T. Anirudhan, M. Ramachandran, Surfactant-modified bentonite as adsorbent for the removal of humic acid from wastewaters, Appl. Clay Sci., 35 (2007) 276–281.
36. S.-G. Wang, W.-X. Gong, X.-W. Liu, B.-Y. Gao, Q.-Y. Yue, D.-H. Zhang, Removal of fulvic acids from aqueous solutions via surfactant modified zeolite 11 supported by the National High-tech and Development of Program of China (No. 2003AA601060), Chem. Res. Chinese Univ., 22 (2006) 566–5670.
37. A.R. Yazdanbakhsh, M. Kermani, S. Komasi, E. Aghayani, A. Sheikhmohammadi, Humic acid removal from aqueous solutions by peroxi-electrocoagulation process, Environ. Health Eng. Manage. J., 2 (2015) 53–58.
38. B. Hameed, A. Ahmad, N. Aziz, Isotherms, kinetics and thermodynamics of acid dye adsorption on activated palm ash, Chem. Eng., 133 (2007) 195–203.
39. H. Tashauoei, H.M. Attar, M. Amin, M. Kamali, M. Nikaeen, M.V. Dastjerdi, Removal of cadmium and humic acid from aqueous solutions using surface modified nanozeolite A, Int. J. Environ. Sci. Technol., 7 (2010) 497–508.
40. Gh. Asgari, Gh. Ghanizadeh, A. Seydmohammadi, Adsorption of humic acid from aqueous solutions onto modified pumice with hexadecyl trimethyl ammonium bromide, J. Babol Univ. Med. Sci., 14 (2011) 14–22.
41. M. Kitis, E. Karakaya, N.O. Yigit, G. Civelekoglu, A. Akcil, Heterogeneous catalytic degradation of cyanide using copperimpregnated pumice and hydrogen peroxide, Water Res., 39 (2005) 1652–1662.
42. J. Zhang, T. Yao, C. Guan, N. Zhang, H. Zhang, X. Zhang, J. Wu, One-pot preparation of ternary reduced graphene oxide nanosheets/Fe₂O₃/polypyrrole hydrogels as efficient Fenton catalysts, J. Colloid Interface Sci., 505 (2017) 130–138.
43. M. Ghaneian, M. Ehrampoush, M. Dehvari, M. Kheirkhah, F. Anvar, M. Askarshahi, B. Jamshidi, The investigation of electron beam catalytical oxidation process efficiency with potassium persulfate in removal humic acid from aqueous solutions, Toloo-E-Behdasht, 14 (2015) 63–76.
44. R. Nosrati, A. Olad, R. Maramifar, Degradation of ampicillin antibiotic in aqueous solution by ZnO/polyaniline nanocomposite as photocatalyst under sunlight irradiation, Environ. Sci. Pollut. Res. Int., 19 (2012) 2291–2299.
45. G. Safari, M. Hoseini, M. Seyedsalehi, H. Kamani, J. Jaafari, A. Mahvi, Photocatalytic degradation of tetracycline using nanosized titanium dioxide in aqueous solution, Int. J. Environ. Sci. Technol., 12 (2015) 603–616.
46. M. Hoseini, Gh.H. Safari, H. Kamani, J. Jaafari, A.H. Mahvi, Survey on removal of tetracycline antibiotic from aqueous solutions by nano-sonochemical process and evaluation of the influencing parameters, Iran. J. Health Environ., 8 (2015) 141–152.
47. S. Liu, M. Lim, K. Chiang, R. Amal, R. Fabris, C. Chow, M. Drikas, A study on the removal of humic acid using advanced oxidation processes, Sep. Sci. Technol., 42 (2007) 1391–1404.
48. A.H. Mahvi, A. Maleki, R. Rezaee, M. Safari, Reduction of humic substances in water by application of ultrasound waves and ultraviolet irradiation, Iran. J. Environ. Health Sci. Eng., 6 (2009) 233–240.