References

1. M. Leili, G. Moussavi, K. Naddafi, Removal of furfural from wastewater using integrated catalytic ozonation and biological approaches, Avicenna J. Environ. Health. Eng., 1 (2014) e120.
2. A.K. Sahu, I.D. Mall, V.C. Srivastava, Studies on the adsorption of furfural from aqueous solution onto low-cost bagasse fly ash, Chem. Eng. Commun., 195 (2007) 316–335.
3. S. Borghei, S. Hosseini, Comparison of furfural degradation by different photooxidation methods, Chem. Eng. J., 139 (2008) 482–488.
4. W. Philip, A. Bruce, P. Ann de, G. Shayne, Encyclopedia of Toxicology Continues Its Comprehensive Survey of Toxicology, 2nd ed., Academic Press, USA, 2005, p. 2000.
5. M. Leili, G. Moussavi, K. Naddafi, Degradation and mineralization of furfural in aqueous solutions using heterogeneous catalytic ozonation, Desal. Wat. Treat., 51 (2013) 6789–6797.
6. A.K. Sahu, V.C. Srivastava, I.D. Mall, D.H. Lataye, Adsorption of furfural from aqueous solution onto activated carbon: kinetic, equilibrium and thermodynamic study, Sep. Sci. Technol., 43 (2008) 1239–1259.
7. M. Fazlzadeh, M. Ansarizadeh, M. Leili, Data of furfural adsorption on nano zero valent iron (NZVI) synthesized from Nettle extract, Data Brief., 16 (2018) 341–345.
8. F. Li, J. Bao, T.C. Zhang, Y. Lei, A combined process of adsorption and Fenton-like oxidation for furfural removal using zero valent iron residue, Environ. Technol., 36 (2015) 3103–3111.
9. M.R. Samarghandi, M. Leili, R. Harati, M. Tarlani Azar, S. Maleki, Efficiency of electro/persulfate process by iron electrode in removing furfural from aqueous solution, J. Mazandaran Univ. Med. Sci., 24 (2014) 95–108.
10. M.R. Samarghandi, M. Leili, K. Godini, J. Mehralipour, R. Harati, Furfural removal from synthetic wastewater by persulfate anion activated with electrical current: energy consumption and operating costs optimization, Der Pharma Chemica., 7 (2015) 48–57.
11. R. Boopathy, Anaerobic biotransformation of furfural to furfuryl alcohol by a methanogenic archaebacterium, Int. Biodeter. Biodegrad., 63 (2009) 1070–1072.
12. R. Boopathy, N. Belay, G. Voskuilen, Anaerobic transformation of furfural by Methanococcus deltae delta LH, Appl. Environ. Microbiol., 63 (1997) 2092–2094.
13. M. Leili, G. Moussavi, K. Nadafi, R. Khosravi, The investigation and comparison of furfural removal from wastewater using cyclic biological reactor (CBR) and Fusarium culmorum granules, Iran. J. Health Environ., 6 (2013) 133–144.
14. T. Modig, G. Lidén, M.J. Taherzadeh, Inhibition effects of furfural on alcohol dehydrogenase, aldehyde dehydrogenase and pyruvate dehydrogenase, Biochem. J., 363 (2002) 769–776.
15. G. Moussavi, M. Leili, K. Nadafi, Investigation of furfural biodegradation in a continuous inflow cyclic biological reactor, Water Sci. Technol., 73 (2015) 292–301.
16. M. Tarlani Azar, M. Leili, F. Taherkhani, A. Bhatnagar, A comparative study for the removal of aniline from aqueous solutions using modified bentonite and activated carbon, Desal. Wat. Treat., 57 (2016) 24430–24443.
17. G. Moussavi, M. Heidarizad, Biodegradation of mixture of phenol and formaldehyde in wastewater using a single-basin MSCR process, J. Biotechnol., 150 (2010) 240–245.
18. G. Kiely, Environmental Engineering, Tata McGraw-Hill Education, New York, USA, 2007.
19. C. Comninellis, A. Kapalka, S. Malato, S.A. Parsons, I. Poulios, D. Mantzavinos, Advanced oxidation processes for water treatment: advances and trends for R&D, J. Chem. Technol. Biotechnol., 83 (2008) 769–776.
20. E.G. Manual, Alternative Disinfectants and Oxidants, Disinfectant Use in Water Treatment, Washington, D.C., USA, 1999.
21. F.C. Moreira, R.A. Boaventura, E. Brillas, V.J. Vilar, Electrochemical advanced oxidation processes: a review on their application to synthetic and real wastewaters, Appl. Catal., B, 202 (2017) 217–261.
22. K. Yari, A. Rahmani, G. Asgari, Q. Azarian, A. Bhatnagar, M. Leili, Degradation of imidacloprid pesticide in aqueous solution using an eco-friendly electrochemical process, Desal. Wat. Treat., 86 (2017) 150–157.
23. C. Comninellis, C. Pulgarin, Anodic oxidation of phenol for waste water treatment, J. Appl. Electrochem., 21 (1991) 703–708.
24. L. Szpyrkowicz, C. Juzzolino, S.N. Kaul, A comparative study on oxidation of disperse dyes by electrochemical process, ozone, hypochlorite and Fenton reagent, Water. Res., 35 (2001) 2129–2136.
25. G.-Q. Wu, X. Zhang, H. Hui, J. Yan, Q.-S. Zhang, J.-L. Wan, Y. Dai, Adsorptive removal of aniline from aqueous solution by oxygen plasma irradiated bamboo based activated carbon, Chem. Eng. J., 1 (2012) 201–210.
26. K. Godini, G. Azarian, A.R. Rahmani, H. Zolghadrnasab, Treatment of waste sludge: a comparison between anodic oxidation and electro-Fenton processes, J. Res. Health Sci., 13 (2013) 188–193.
27. G. Zolfaghari, A. Esmaili-Sari, M. Anbia, H. Younesi, S. Amirmahmoodi, A. Ghafari-Nazari, Taguchi optimization approach for Pb (II) and Hg (II) removal from aqueous solutions using modified mesoporous carbon, J. Hazard. Mater., 192 (2011) 1046–1055.
28. A.B. Engin, Ö. Özdemir, M. Turan, A.Z. Turan, Color removal from textile dyebath effluents in a zeolite fixed bed reactor: determination of optimum process conditions using Taguchi method, J. Hazard. Mater., 159 (2008) 348–353.
29. A.D. Eaton, M.A.H. Franson, Standard Methods for the Examination of Water and Wastewater, American Public Health Association, Washington, D.C., USA, 2005.
30. A.R. Rahmani, D. Nematollahi, G. Azarian, K. Godini, Z. Berizi, Activated sludge treatment by electro-Fenton process: parameter optimization and degradation mechanism, Korean J. Chem. Eng., 32 (2015) 1570–1577.
31. H. An, H. Cui, W. Zhang, J. Zhai, Y. Qian, X. Xie, Q. Li, Fabrication and electrochemical treatment application of a microstructured TiO₂-NTs/Sb–SnO₂/PbO₂ anode in the degradation of CI Reactive Blue 194 (RB 194), Chem. Eng. J., 209 (2012) 86–93.
32. G. Azarian, D. Nematollahi, A.R. Rahmani, K. Godini, M. Bazdar, H. Zolghadrnasab, Monopolar electro-coagulation process for azo dye C. I. Acid Red 18 removal from aqueous solutions, Avicenna J. Environ. Health. Eng., 1 (2014) e354.
33. A.R. Rahmani, K. Godini, D. Nematollahi, G. Azarian, Electrochemical oxidation of activated sludge by using direct and indirect anodic oxidation, Desal. Wat. Treat., 56 (2015) 2234–2245.
34. B.W. Fleszar, J. Poszyńska, An attempt to define benzene and phenol electrochemical oxidation mechanism, Electrochim. Acta., 30 (1985) 31–42.
35. M. Ahmadi, H.R. Motlagh, N. Jaafarzadeh, A. Mostoufi, R. Saeedi, G. Barzegar, S. Jorfi, Enhanced photocatalytic degradation of tetracycline and real pharmaceutical wastewater using MWCNT/TiO₂ nano-composite, J. Environ. Manage., 186 (2017) 55–63.
36. A. Arques, A.M. Amat, A. García-Ripoll, R. Vicente, Detoxification and/or increase of the biodegradability of aqueous solutions of dimethoate by means of solar photocatalysis, J. Hazard. Mater., 146 (2007) 447–452.
37. R.A. Palominos, A. Mora, M.A. Mondaca, M. Pérez-Moya, H.D. Mansilla, Oxolinic acid photo-oxidation using immobilized TiO₂, J. Hazard. Mater., 158 (2008) 460–464.
38. M. Zhou, J. He, Degradation of cationic red X-GRL by electrochemical oxidation on modified PbO₂ electrode, J. Hazard. Mater., 153 (2008) 357–363.
39. EPA, U.S. Environmental Protection Agency Guidelines for Water Reuse, Municipal Support Division Office of Wastewater Management, Office of Water, Washington, D.C., USA, 2004.