Introduction and Analysis of the Techniques for the Removal of Phenol from Water

[1] F.Y. Chen, C.L. Wang, X.G. Wang, et al. Pilot Study on Emergent Treatments of Raw Water Suddenly Polluted by Phenols in Drinking Source [J]. Technology of Water Treatment, Vol 37 (2011), No 8, pp.95-99

Google Scholar

[2] B.D. Li, D.M. Liu, T. Lin. Study on Chemical Oxidation Technique in Water Treatment Process [J]. Journal of Harbin University of Commerce Natural Sciences Edition, Vol 20 (2004), No 2, pp.199-202

Google Scholar

[3] D.M. Liu, F.Y. Cui, Y.Q. Wu, et al. Removal of Cyclops by Preoxidation Combined with Conventional Process [J]. Water Technology, Vol 1 (2007), No 1, pp.32-34, 58

Google Scholar

[4] X.R. He. High Concentration of Phenol Waste Water Treatment Method [J]. Petrochemical Industry Application, Vol 28 (2009), No 2, pp.28-29

Google Scholar

[5] Y.Q. Cong, F.X. Fu, X.J. Ma, et al. Treatment and Kinetics of Phenol Wastewater by Combined Electrocatalysis And Adsorption [J]. CIESC Journal, Vol 61 (2010), No 11, pp.2971-2977

Google Scholar

[6] Gholamreza Moussavi, Behnam Barikbin, Maryam Mahmoudi. The Removal of High Concentrations of Phenol From Saline Wastewater Using Aerobic Granular SBR [J]. Chemical Engineering Journal, Vol 158 (2010), No 3, pp.498-504

DOI: 10.1016/j.cej.2010.01.038

Google Scholar

[7] Z.M. Liu, F.H. Nie. Treatment of Highly Concentrated Phenols Wastewater with A Gac-Baf Combined Process [J]. Journal of Civil, Architectural & Environmental Engineering, Vol 31 (2009), No 4, p.135－140

Google Scholar

[8] Q. Jin, S.G. Yuan, W.K. An. Synthesis of Hypercrosslinked Resin Containing Oxygen and Its Performance on Phenol Adsorption [J]. Chemical Industry and Engineering Progress, Vol 31 (2012), No 3, pp.593-597

Google Scholar

[9] R. Wibulswas, D. A. White, R. Rautiu. Adsorption of Phenolic Compounds from Water by Surfactant-Modified Pillared Clays [J]. Process Safety And Environmental Protection, Vol 77 (1999), No 2, pp.88-92

DOI: 10.1205/095758299529857

Google Scholar

[10] N. Masqué, R. M. Marcé, F. Borrull. Comparison of Different Sorbents for On-Line Solid-Phase Extraction of Pesticides and Phenolic Compounds from Natural Water Followed by Liquid Chromatography [J]. Journal of Chromatography A, Vol 793 (1998), No 2, pp.257-263

DOI: 10.1016/s0021-9673(97)00936-9

Google Scholar

[11] B.I. Harman, H. Koseoglu, N.O. Yigit, et al. The Use of Iron Oxide-Coated Ceramic Membranes in Removing Natural Organic Matter and Phenol from Waters [J]. Desalination, Vol 261 (2010), No 1-2, pp.27-33

DOI: 10.1016/j.desal.2010.05.052

Google Scholar

[12] Najm, Issam N., Snoeyink, Vernon L., Lykins, Benjamin W., Adams, Jeffrey Q. Powdered Activited Carbon in Drinking Water Treatment: A Critical Review [J]. Journal of the American Water Works Association, Vol 83 (1991), No 1, pp.65-76

DOI: 10.1002/j.1551-8833.1991.tb07087.x

Google Scholar

[13] J.X. Fu, F. Wang, K. You, et al. Trial Study of Emergency Treatment for Phenol Pollution Water by Using Pac Adsorption [J]. Journal of Shenyang Jianzhu University (Natural Science), Vol 24 (2008), No 4, pp.633-636

Google Scholar

[14] Najm, Issam N., Tate, Carol, Selby, Douglas. Optimizing Enhanced Coagulation with Powdered Activated Carbon: a case study[J]. Journal of the American Water Works Association, Vol 90 (1998), No 10, pp.88-95

DOI: 10.1002/j.1551-8833.1998.tb08521.x

Google Scholar

[15] X.G. Wang, X.Q. Liu, F.Y. Chen et al. Research on Emergency Treatment of Accidental Phenol Pollution of Drinking Source Water by Adsorption-Oxidation Process [J]. Chinese Journal of Environmental Engineering, Vol 5 (2011), No 11, pp.2417-2422

Google Scholar