1. A.Y. Bagastyo, J. Keller, Y. Poussade, D.J. Batstone, Characterisation and removal of recalcitrants in reverse osmosis concentrates from water reclamation plants, Water Res. 45 (2011) 2415–2427.
  2. A. Uygur, F. Kargi, Salt inhibition on biological nutrient removal from saline wastewater in a sequencing batch reactor, Enzyme Microb. Technol., 34 (2004) 313–318.
  3. K. Khairia, H.M. Mahfoud, T. Youcef, A. Abdeltif, Influence of secondary salinity wastewater on the efficiency of biological treatment of sand filter, Energ. Procedia., 74 (2015) 398–403.
  4. L.Y. Lee, H.Y. Ng, S.L. Ong, J.Y. Hu, G. Tao, K. Kekre, B. Viswanath, W. Lay, H. Seah, Ozone-biological activated carbon as a pretreatment process for reverse osmosis brine treatment and recovery, Water Res., 43 (2009) 3948–3955.
  5. B.P. Chaplin, G. Schrader, J. Farrell, Electrochemical destruction of N-nitrosodimethylamine in reverse osmosis concentrates using boron-doped diamond film electrodes, Environ. Sci. Technol., 44 (2010) 4264–4269.
  6. K. Liu, F.A. Roddick, L.H. Fan, Potential of UV/H2O2 oxidation for enhancing the biodegradability of municipal reverse osmosis concentrates, Water Sci. Technol., 63 (2011) 2605–2611.
  7. X.Z. Wei, P. Gu, G.H. Zhang, Reverse osmosis concentrate treatment by a PAC countercurrent four-stage adsorption/MF hybrid process, Desalination, 352 (2014) 18–26.
  8. M. Umar, F.A. Roddick, L.H. Fan, O. Autin, B. Jefferson, Treatment of municipal wastewater reverse osmosis concentrate using UVC-LED/H2O2 with and without coagulation pre-treatment, Chem. Eng. J., 260 (2015) 649–656.
  9. A. Pérez-González, A.M. Urtiaga, R. Ibáñez, I. Ortiz, State of the art and review on the treatment technologies of water reverse osmosis concentrates, Water Res., 46 (2012) 267–283.
  10. G.R. Pophali, S. Hedau, N. Gedam, N.N. Rao, T. Nandy, Treatment of refractory organics from membrane rejects using ozonation. J. Hazard. Mater., 189 (2011) 273–277.
  11. P. Westerhoff, H. Moon, D. Minakata, J. Crittenden, Oxidation of organics in retentates from reverse osmosis wastewater reuse facilities, Water Res., 43 (2009) 3992–3998.
  12. G. Hurwitz, M.V. Eric, Hoek, K. Liu , L.H. Fan, F.A. Roddick, Photo-assisted electrochemical treatment of municipal wastewater reverse osmosis concentrate, Chem. Eng. J., 249 (2014) 180–188.
  13. L. Jie, L.H. Fan, F.A. Roddick, Potential of BAC combined with UVC/H2O2 for reducing organic matter from highly saline reverse osmosis concentrate produced from municipal wastewater reclamation, Chemosphere, 93 (2013) 683–688.
  14. S. Cortez, P. Teixeira, R. Oliveira, M. Mota, Evaluation of Fenton and ozone-based advanced oxidation processes as mature landfill leachate pre-treatments, J. Environ. Manag., 92 (2011) 74–755.
  15. I.S. Oliveira, L. Viana, C. Verona, V.L.V. Fallavena, C.M.N. Azevedo, M. Pires, Alkydic resin wastewaters treatment by Fenton and photo-Fenton process, J. Hazard. Mater., 146 (2007) 564–568.
  16. J.I. Colades, M.D.G. Luna, C.C. Su, M.C. Lu, Treatment of thin film transistor-liquid crystal display (TFT-LCD) wastewater by the electro-Fenton process, Sep. Purif. Technol., 145 (2015) 104–112.
  17. T. Zhou, T.T. Lim, S.S. Chin, A.G. Fane, Treatment of organics in reverse osmosis concentrate from a municipal wastewater reclamation plant: Feasibility test of advanced oxidation processes with/without pretreatment, Chem. Eng. J., 166 (2011) 932–939.
  18. APHA. Standard Methods for the Examination of Water & Wastewater. 2005 American Public Health Association, Washington DC, USA.
  19. I.M. Kolthoff, R. Belcher, Volumetric Analysis III Interscience, New York (1957).
  20. C.L. Hsueh, Y.H. Huang, C.C. Wang, C.Y. Chen, Degradation of azo dyes using low iron concentration of Fenton and Fenton-like system, Chemosphere, 58 (2005) 1409–1414.
  21. E. Neyens, J. Baeyens, A review of classic Fenton’s peroxidation as an advanced oxidation technique, J. Hazard. Mater., 98 (2003) 33–50.
  22. Y. Deng, J.D. Englehardt, Treatment of landfill leachate by the Fenton process, Water Res., 40 (2006) 3683–3694.
  23. J. Wei, Y.H. Song, X. Tu, L. Zhao, E.Q. Zhi, Pretreatment of dryspun acrlic fiber manufacturing wastewater by Fenton process: Optimization, kinetics and mechanisms, Chem. Eng. J., 218 (2013) 319–326.
  24. V. Kavitha, K. Palanivelu, Destruction of cresols by Fenton oxidation process, Water Res., 39 (2005) 3062–3072.
  25. K.V. Padoley, S.N. Mudliar, S.K. Banerjee, S.C. Deshmukh, R.A. Pandey, Fenton oxidation: A pretreatment option for improved biological treatment of pyridine and 3-cyanopyridine plant wastewater, Chem. Eng. J., 166 (2011) 1–9.
  26. Y.W. Kang, K.Y. Hwang, Effects of reaction conditions on the oxidation efficiency in the Fenton process, Water Res., 34 (2000) 2786–2790.
  27. R.R. Giri, H. Ozaki, T. Ishida, R. Takanami, S. Taniguchi, Synergy of ozonation and photocataltsis to mineralize low concentration 2.4-dichlorophenoxyacetic acid in aqueous solution, Chemosphere, 66 (2007) 1610–1617.
  28. Z.Q. Zeng, H.K. Zou, X. Li, M. Arowo, B.C. Sun, J.F. Chen, G.W. Chu, L. Shao, Degradation of phenol by ozone in the presence of Fenton reagent in a rotating packed bed. Chem. Eng. J., 229 (2013) 404–411.
  29. R.K. Henderson, A. Baker, K.R. Murphy, A. Hambly, R.M. Stuetz, S.J. Khan, Fluorescence as a potential monitoring tool for recycled water systems: A review, Water Res., 43 (2009) 863–881.
  30. W. Chen, P. Westerhoff, J.A. Leenheer, K. Booksh, Fluorescence excitation–emission matrix regional integration to quantify spectra for dissolved organic matter, Environ. Sci. Technol., 7 (2003) 5701–5710.
  31. Y. Qi, P.P. Xiong, P.Y. Ding, L.B. Chu, J.L. Wang, Treatment of petrochemical wastewater by microaerobic hydrolysis and anoxic/oxic processes and analysis of bacterial diversity, Bioresource Technol., 196 (2015) 169–175.
  32. E.B. Estrada-Arriaga, E. Ramirez-Camperos, G.E. Moeller-Chavez, Anaerobic/aerobic treatment of a petrochemical wastewater from two aromatic transformation processes by fluidized bed reactors, Water Sci. Technol., 66 (2012) 2754–2763.