References

1. H. Uppal, S.S. Tripathy, S. Chawla, B. Sharma, M. Dalai, S. Singh, Study of cyanide removal from contaminated water using zinc peroxide nanomaterial, Environ. Sci., 55 (2017) 76–85.
2. R. Dasha, A. Gaur, C. Balomajumder, Cyanide in industrial wastewaters and its removal: a review on biotreatment, J. Hazard. Mater., 163 (2009) 1–11.
3. G. Asgari, A.M. Seid Mohammadi, A. Ahmadian, Removal of cyanide from aqueous solution by adsorption onto bone charcoal, Fresenius Environ Bull., 23 (2014) 720–727.
4. S. Golbaz, A.J. Jafari, M. Rafiee, R.R. Kalantary, Separate and simultaneous removal of phenol, chromium, and cyanide from aqueous solution by coagulation/precipitation: mechanisms and theory, Chem. Eng. J., 253 (2014) 251–257.
5. Z. Yang, B. Liu, B. Gao, Y. Wang, Q. Yue, Effect of Al species in polyaluminum silicate chloride (PASiC) on its coagulation performance in humic acid–kaolin synthetic water, Sep. Purif. Technol., 111 (2013) 119–124.
6. Y. Zhao, W. Liang, L. Liu, F. Li, Q. Fan, X. Sun, Harvesting Chlorella vulgaris by magnetic flocculation using Fe₃O₄ coating with polyaluminium chloride and polyacrylamide, Bioresour. Technol., 198 (2015) 789–796.
7. X. Niu, X. Li, J. Zhao, Y. Ren, Y. Yang, Preparation and coagulation efficiency of polyaluminium ferric silicate chloride composite coagulant from wastewater of high-purity graphite production, J. Environ. Sci., 23 (2011) 1122–1128.
8. A. Matilainen, M. Vepsäläinen, M. Sillanpää, Natural organic matter removal by coagulation during drinking water treatment: a review, Adv. Colloid Interface Sci., 159 (2010) 189–197.
9. Y. Zhao, S. Phuntsho, B. Gao, Y. Yang, J. Kim, H. Shon, Comparison of a novel polytitanium chloride coagulant with polyaluminium chloride: coagulation performance and floc characteristics, J. Environ. Manage., 147 (2015) 194–202.
10. N. Tzoupanos, A. Zouboulis, C. Tsoleridis, A systematic study for the characterization of a novel coagulant (polyaluminium silicate chloride), Colloids Surf., A, 342 (2009) 30–39.
11. B. Yang, J. Zuo, X. Tang, F. Liu, X. Yu, X. Tang, Effective ultrasound electrochemical degradation of methylene blue wastewater using a nanocoated electrode, Ultrason. Sonochem., 21 (2014) 1310–1317.
12. B. Gao, Q. Yue, Y. Wang, Coagulation performance of polyaluminum silicate chloride (PASiC) for water and wastewater treatment, Sep. Purif. Technol., 56 (2007) 225–230.
13. A. Mahvi, M. Malakootian, M. Heidari, Comparison of polyaluminum silicate chloride and electrocoagulation process, in natural organic matter removal from surface water in Ghochan, Iran, J. Water Chem. Technol., 33 (2011) 377–385.
14. S. Yuan, N. Gou, A. Alshawabkeh, A. Gu, Efficient degradation of contaminants of emerging concerns by a new electro-Fenton process with Ti/MMO cathode, Chemosphere, 93 (2013) 2796–2804.
15. G.E. Esra, Y. Seval, K.A. Savaş, G.Ö. Nezih, Combined energy and removal efficiency of electrochemical wastewater treatment for leather industry, J. Water Process Eng., 82 (2017) 1422–1430.
16. M. Ahmadian, S. Reshadat, N. Yousefi, S.H. Mirhossieni, M.R. Zare, S.R. Ghasemi, N.R. Gilan, R. Khamutian, A. Fatehizadeh, Municipal leachate treatment by Fenton process: effect of some variable and kinetics, J. Environ. Public Health, (2013), 1–6.
17. S.P. Moussavi, M.H. Ehrampoush, A.H. Mahvi, S. Rahimi, M. Ahmadian, Efficiency of multi-walled carbon nanotubes in adsorbing humic acid from aqueous solutions, Asian J. Chem., 26 (2014) 821–826.
18. S. Tian, Y. Li, X. Zhao, Cyanide removal with a copper/active carbon fiber cathode via a combined oxidation of a Fenton-like reaction and in situ generated copper oxides at anode. Electrochim Acta. 180 (2015) 746–755
19. J. Meijide, S. Rodríguez, M. Sanromán, M. Pazos, Comprehensive solution for acetamiprid degradation: combined electro-Fenton and adsorption process, J. Electroanal. Chem., 808 (2018) 446–454.
20. M. Malakootian, A. Moridi, Efficiency of electro-Fenton process in removing Acid Red 18 dye from aqueous solutions, Process Saf. Environ., 111 (2017) 138–147.
21. M. Sohrabi, A. Khavaran, S. Shariati, S. Shariati, Removal of Carmoisine edible dye by Fenton and photo Fenton processes using Taguchi orthogonal array design, Arabian J. Chem., 10 (2017) 3523–3531.
22. 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.
23. Y. Segur, F. Martínez, J. Melero, R. Molina, R. Chand, D. Bremner, Enhancement of the advanced Fenton process (FeO/H₂O₂) by ultrasound for the mineralization of phenol, Appl. Catal., B, 113 (2012) 100–106.
24. M. Dükkanc, Sono-photo-Fenton oxidation of bisphenol-A over a LaFeO₃ perovskite catalyst, Ultrason. Sonochem., 40 (2018) 110–116.
25. Q. Zhou, Y. Liu, G. Yu, F. He, K. Chen, D. Xiao, X. Zhao, Y. Feng, J. Li, Degradation kinetics of sodium alginate via sono-Fenton, photo-Fenton and sonophoto-Fenton methods in the presence of TiO2 nanoparticles, Polym. Degrad. Stab., 135 (2017) 111–120.
26. A. Khataee, S. Rad, B. Vahid, S. Khorram, Preparation of zeolite nanorods by corona discharge plasma for degradation of phenazopyridine by heterogeneous sono-Fenton-like process, Ultrason. Sonochem., 33 (2016) 37–46.
27. A. Hassani, C. Karac, S. Karac, A. Khataee, O. Açışlı, B. Yılmaz, Enhanced removal of basic violet 10 by heterogeneous sono- Fenton process using magnetite nanoparticles, Ultrason. Sonochem., 40 (2018) 841–852.
28. P. Margan, M. Haghighi, Sono-coprecipitation synthesis and physicochemical characterization of CdO-ZnO nanophotocatalyst for removal of acid orange 7 from wastewater, Ultrason. Sonochem., 40 (2018) 323–332.
29. X. Zhong, S. Royer, H. Zhang, Q. Huang, L. Xiang, S. Valange, J. Barrault, Mesoporous silica iron-doped as stable and efficient heterogeneous catalyst for the degradation of C.I. Acid Orange 7 using sono–photo-Fenton process, Sep. Purif. Technol., 80 (2011) 163–171.
30. S. Adityosulindro, L. Barthe, K. Labrada, J. Haza, H. Delmasa, C. Julcour, Sonolysis and sono-Fenton oxidation for removal of ibuprofen in (waste) water, Ultrason. Sonochem., 39 (2017) 889–896.
31. C. Wang, Y. Shih, Degradation and detoxification of diazinon by sono-Fenton and sono-Fenton-like processes, Sep. Purif. Technol., 140 (2015) 6–12.
32. S. Clesceri, A. Greenberg, A. Eaton, Standard Methods for the Examination of Water and Wastewater, American Public Health Association, 2005, pp. 607–614.
33. S. Cho, T. Luong, D. Lee, Y. OH, T. Lee, Reuse of effluent water from a municipal wastewater treatment plant in microalgae cultivation for biofuel production, Bioresour. Technol., 102 (2011) 8639–8645.
34. Z. Yang, B. Gao, W. Xu, B. Cao, Q. Yue, Effect of OH−/Al³⁺ and Si/Al molar ratios on the coagulation performance and residual Al speciation during surface water treatment with poly-aluminumsilicate-chloride (PASiC), J. Hazard. Mater., 189 (2011) 203–210.
35. J. Wu, F. Liu, H. Zhang, J. Zhang, L. Li, Decolorization of CI Reactive Black 8 by electrochemical process with/without ultrasonic irradiation, Desal. Wat. Treat., 44 (2012) 36–43.
36. B. Thokchom, A. Pandit, P. Qiu, B. Park, J. Choi, J. Khim, A review on sonoelectrochemical technology as an upcoming alternative for pollutant degradation, Ultrason. Sonochem., 27 (2015) 210–234.
37. P. Nidheesh, R. Gandhimathi, S. Ramesh, Degradation of dyes from aqueous solution by Fenton processes: a review, Environ. Sci. Pollut. Res. Int., 20 (2013) 2099–2132.
38. D. Gümüş, F. Akbal, Comparison of Fenton and electro-Fenton processes for oxidation of phenol, Process Saf. Environ. Prot., 103 (2016) 252–258.
39. Y. Ren, Z. Wu, M. Franke, P. Braeutigam, B. Ondruschka, D. Comeskey, Sonoelectrochemical degradation of phenol in aqueous solutions, Ultrason. Sonochem., 20 (2013) 715–721.
40. N. Wang, T. Zheng, G. Zhang, P. Wang, A review on Fenton-like processes for organic wastewater treatment, J. Environ. Chem. Eng., 4 (2016) 762–787.
41. D. He, X. Guan, J. Ma, X. Yang, C. Cui, Influence of humic acids of different origins on oxidation of phenol and chlorophenols by permanganate, J. Hazard. Mater., 182 (2010) 681–688.
42. M. Bagal, P. Gogate, Wastewater treatment using hybrid treatment schemes based on cavitation and Fenton chemistry: a review, Ultrason. Sonochem., 21 (2014) 1–14.
43. J. Wang, H. Wang, Fenton treatment for flotation separation of polyvinyl chloride from plastic mixtures, Sep. Purif. Technol., 187 (2017) 415–425.
44. A. Ribeiro, O. Nunes, M. Pereira, A. Silva, An overview on the advanced oxidation processes applied for the treatment of water pollutants defined in the recently launched Directive 2013/39/EU, Environ. Int., 75 (2015) 33–51.
45. E. Rott, R. Minke, U. Bali, H. Steinmetz, Removal of phosphonates from industrial wastewater with UV/Fe II, Fenton and UV/Fenton treatment, Water Res., 122 (2017) 345–354.
46. T. Xu, R. Zhu, G. Zhu, J. Zhu, X. Liang, Y. Zhu, Mechanisms for the enhanced photo-Fenton activity of ferrihydrite modified with BiVO4 at neutral pH, Appl. Catal., B, 212 (2017) 50–58.
47. V. Sáez, M. Esclapez, I. Tudela, P. Bonete, O. Louisnard, J. García, 20kHz sonoelectrochemical degradation of perchloroethylene in sodium sulfate aqueous media: influence of the operational variables in batch mode, J. Hazard. Mater., 183 (2010) 648–654.