J. Dezuane, Hand Book of Drinking Water Quality, 2nd ed., Vannos Trand Reinhold, (1997).
 G. Aidan, Agricultural wastes and activated carbon from them for furfural removal from water solutions, Life Sci. J. 9 (2012) 2501-2505.
 B.H. Diya’uddeen, W.M.A.W. Daud, A.R. Abdul Aziz, Treatment technologies for petroleum refinery effluents: a review, Process Saf. Environ. Prot. 89 (2011) 95–105.
 S.J. Kulkarni, J.P. Kaware, Review on research for removal of phenol from wastewater, Int. J. Sci. Res. Pub. 3 (2013) 1–5.
 A. Coelho, A.V. Castro, M. Dezotti, G.L. Sant’Anna Jr, Treatment of petroleum refinery sourwater by advanced oxidation processes, J. Hazard. Mater. 137 (2006) 178-184.
 M.A. Oturan, J.J. Aaron, Advanced Oxidation Processes in Water/Wastewater Treatment: Principles and Applications. A Review, Crit. Rev. Env. Sci. Technol. 44 (2014) 2577–2641.
 F.J. Beltran, M. Gonzalez, F.J. Gonzalez, Industrial wastewater advanced oxidation Water Res. 31 (1997) 2405-2414.
 H. Bao, Y. Liu, H. Jia, A study of irradiation in the treatment of wastewater, Rad. Phys. Chem. 63 (2002) 633-636.
 W.J. Cooper, E. Cadavid, M.G. Nickelsen, K. Lin, C.N. Kurucz, T.D. Waite, Removing THMs from drinking water using high-energy electron-beam irradiation, American Water Works Association (AWWA) 85 (1993) 106–112.
 W.J. Cooper, D.E. Meacham, M.G. Nickelsen, K.Lin, D.B. Ford, C.N. Kurucz, T.D. Waite, The removal of tri-(TCE) and tetrachloroethylene (PCE) from standard solution using high energy electrons, J. Air Waste Manag. Assoc. 43 (1993) 1358–1366.
 IAEA-TECDOC-1407. Status of industrial scale radiation treatment of wastewater and its future (2003).
 A. Behjat, M.R. Parsaeian, F. Anvari, M. Kheirkhah, M.R. Tahami, Dicolorization of Reactive Dyes in Aqueous Solutions Using Ionizing Electron Beam Radiation, J. Water Waste water, 20 (2009) 26-31.
 C. Kuchhoft, R. Lishka, Sensitive 4-aminoantipyrine method for phenolic compounds, Anal. Chem. 23 (1951) 1783–1788.
 M. William Jr. Foley, E. Guy Sanford, Jr. Herbert McKennis, The mechanism of the reaction of aniline with furfural in the presence of acid, J. Am. Chem. Soc. 74 (1952) 5489–5491.
 J. Hoigne, H. Bader, The role of hydroxyl radical reactions in ozonation processes in standard solutions, Water Res. 10 (1976) 377–386.
 S.M. Borghei, S.N. Hosseini, Comparison of furfural removal by different photooxidation methods, Chem. Eng. J. 139 (2008) 482–488.
 E.M. Knipping, M.J. Lakin, K.L. Foster, P. Jungwirth, D.J. Tobias, R.B. Gerber, D. Dabdub, B.J. Finlayson-Pitts, Experiments and simulations of ion-enhanced interfacial chemistry on standard NaCl aerosols, Science, 288 (2000) 301–306.
 C. Kang, X. Tang, X. Jiao, P. Guo, F. Quan, X. Lin, Degradation of Furfural by UV/O3 Technology, Chem. Res. Chinese. U. 25 (2009) 451-454.
 E-S.Z. El-Ashtoukhy, Y.A. El-Taweel, O. Abdelwahab, E.M. Nassef, Treatment of petrochemical wastewater containing phenolic compounds by electrocoagulation using a fixed bed electrochemical reactor, Int. J. Electrochem. Sci. 8 (2013) 1534–1550.
 O. Abdelwahab, N.K. Amin, E-S.Z. El-Ashtoukhy, Electrochemical removal of phenol from oil refiner y wastewater, J. Hazard. Mater. 163 (2009) 711–716.