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5-Chan, K.H., and Chu, W. (2007). “Modeling the reaction kinetics of Fenton’s process on the removal of atrazine.” J. Chemosphere, 51 (4), 305-311. 6-Momani, F. (2003). “Combination of photo – oxidation processes with biological treatment.” Ph.D. Thesis, Universitat de Barcelona. 7- Sutherson, S.S. (2002). Natural and enhanced remediation system, 1st Ed., Lewis publisher, New York. 8- Reference library peroxide applications, industrial wastewater.(2005). “Fenton’s reagent-iron-catalyzed hydrogen peroxide.” (6/26/2005). 9- Sedlak, D. (1991). “Aqueous oxidation of polychlorinated biphenyl’s by hydroxyl radical.” Environ. Sci., Tech., 25(8), 1419-1427. 10- Reference library peroxide applications, industrial wastewater. (2005). “BOD and COD reduction-using hydrogen peroxide.” (6/26/2005). 11-Marco, A. E., and Splugus, G. S. (1997). “How and why combined chemical and biological processes for waste watertreatment.” Wat. Sci. Tech., 35 (4), 321-327. 12-Ostra, M., Ubide, C., and Zuriarrain, J. (2007). “ Interference modeling, experimental design and preconcentration steps in validation of the fentons reagent for pesticides determination.” J. Analytica Chimical, 584, 228-235. 13- Tchobanoglous, G., and Burton, F. (2003). Wastewater engineering treatment and reuse, 4th Ed., McGrawHill Metcalf and Eddy, New York. 14- Water Environment Federation. (1994). Pretreatment of industrial wastes, manual of practice No. FD-3, Alexandria,Va. 15- Lin, S. H., and Lin C. M. (1999). “Operating characteristics and kinetic studies of surfactant wastewater treatment by Fenton oxidation.” Wat. Res., 33 (7), 1735-1741. 16-Torbeno, M., and Hello, B.B. (2001). Environmental and health assessment of substances in household detergents and cosmetic detergent products, Environmental Proj. Danish, EPA, No.615, Denmark.

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17- Fauser, P., and Sqrensen, P.B. (2001). Phthalates, nonylphenols and LAS in Roskilde wastewater treatment plant, Fate modeling based on measured concentrations in wastewater and sludge, ministry of Environmental and Energy, National Environmental Research Institute, Roskilde , Danish Environmental Protection Agency (DEPA), Net Technical Report No354. 18- Srinivasarao, C., Herbert, E.A., and Steren, K.D. (1994). “Effects and fate of anionic surfactants used in household cleaning products.” Journal of Environmental Engineering, 10 (3), 1091-1097. . "+

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21-Papadopoulous, A., and Savvides,C. (1997). “An assessment of the quality and treatment of detergent wastewater.” Wat. Sci. Tech., 36 (2-3), 377-381.

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23-Schroder, F.R., and Schmiitt, M.U. (2001). “The effects of wastewater treatment on ellimination of anionic “. "M

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25-Beltran, F.J., Garcia-Araya, J.F., and Alvarez, P.M. (2000). “Continuous flow integrated chemical (ozone) – activated sludge system treating combined agroindustrial- domestic wastewater.” J. Environmental Progress, 19, 28-35. 26-Adams, C.D., Spitzer, S., and Cowan, R.M. (1996). “ Biodegradation of nonionic surfactants and effects of oxidative pretreatment.” J. Environ. Eng, 122, 477- 483. 27- Sanz, J., Lombranda, J. I. L., and deluis, A. (2003).“Ultraviolet–H2O2 oxidation of surfactants.” Environ. Chem. Lett. Springer – Verlag, 1, 32-37. 28-WEF, APHA, AWWA. (1998). Standard methods for examination of water and wastewater, 20 Ed., Washington D.C. % Y*m $ .k Z )

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31-Deng, Y., and Englehardt, J. D. ( 2006). “Treatment of landfill leachate by the fenton processes.” Water Res., 40 (20) 3683-3694. 32-Lopez, A., Pagano, M., Volpe, A., and Di Pinto, A.C. (2004).“Fentons pre-treatment of mature landfill leachate.” Chemosphere, 54 (7) 1005-1010. 33-Sheng, H. L., and Cho., C. L. (1997). “Fenton process for treatment of desizing wastewater.” Wat. Res., 31 (8), 2050-2056. 34- Kim, Y. O., Nam, H. U. K., and Park, Y. R. (2004). “Fenton oxidation process control suing oxidationreduction potential measurement forpigment wastewater treatment.” Korean J. Chem. Eng., 21 (4), 801-805.

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