Authors: Susana Cortez, Pilar Teixeira, Rosário Oliveira, Manuel Mota

Abstract:

Mature landfill leachates contain some macromolecular organic substances that are resistant to biological degradation. Recently, Fenton-s oxidation has been investigated for chemical treatment or pre-treatment of mature landfill leachates. The aim of this study was to reduce the recalcitrant organic load still remaining after the complete treatment of a mature landfill leachate by Fenton-s oxidation post-treatment. The effect of various parameters such as H2O2 to Fe2+ molar ratio, dosage of Fe2+ reagent, initial pH, reaction time and initial chemical oxygen demand (COD) strength, that have an important role on the oxidation, was analysed. A molar ratio H2O2/Fe2+ = 3, a Fe2+ dosage of 4 mmol·L-1, pH 3, and a reaction time of 40 min were found to achieve better oxidation performances. At these favorable conditions, COD removal efficiency was 60.9% and 31.1% for initial COD of 93 and 743 mg·L-1 respectively (diluted and non diluted leachate). Fenton-s oxidation also presented good results for color removal. In spite of being extremely difficult to treat this leachate, the above results seem rather encouraging on the application of Fenton-s oxidation.

Keywords: Fenton's oxidation, mature landfill leachate, recalcitrant organic matter.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1055903

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References:

[1] J. Wiszniowski, J. Surmacz-Gorska, D. Robert, J. Weber, "The effect of landfill leachate composition on organics and nitrogen removal in an activated sludge system with bentonite additive," Journal of Environmental Management, Vol. 85, no. 1, pp. 59-68, 2006.
[2] C. Di Iaconi, R. Ramadori, A. Lopez, "Combined biological and chemical degradation for treating a mature municipal landfill leachate," Biochemical Engineering Journal, Vol. 31, no. 2, pp.118-124, 2006.
[3] A. A. Tatsi, A. I. Zouboulis, "A field investigation of the quantity and quality of leachate from a municipal solid waste landfill in a Mediterranean climate (Thessaloniki, Greece)," Advances in Environmental Research, Vol. 6, no. 3, pp. 207-219, 2002.
[4] P. Bautista, A. F. Mohedano, J. A. Casas, J. A. Zazo, J. J. Rodriguez, "An overview of the application of Fenton oxidation to industrial wastewaters treatment," Journal of Chemical Technology & Biotechnology, Vol. 83, no. 10, pp.1323-1338, 2008.
[5] Y. Deng, "Physical and oxidative removal of organics during fenton treatment of mature municipal landfill leachate," Journal of Hazardous Materials, Vol. 146, no. 1-2, pp. 334-340, 2007.
[6] X. Wang, S. Chen, X. Gu, K. Wang, "Pilot study on the advanced treatment of landfill leachate using a combined coagulation, Fenton oxidation and biological aerated filter process," Waste Management, Vol. 29, no. 4, pp. 1354-1358, 2009.
[7] J. Kochany, E. Lipczynska-Kochany, "Utilization of landfill leachate parameters for pretreatment by Fenton reaction and struvite precipitation-a comparative study," Journal of Hazardous Materials, Vol. 166, no. 1, pp. 248-254, 2009.
[8] A. Lopez, M. Pagano, A. Volpe, A. Claudio Di Pinto, "Fenton's pretreatment of mature landfill leachate," Chemosphere, Vol. 54, no. 7, pp. 1005-1010, 2004.
[9] H. Zhang, H. J. Choi, C. Huang, "Optimization of Fenton process for the treatment of landfill leachate," Journal of Hazardous Materials, Vol. 125, no. 1-3, pp. 166-174, 2005.
[10] APHA, Standard methods for the examination of water and wastewater. American Public Health Association, Washington, DC, USA, 1989.
[11] W. Tang, C. Huang, "2,4-dichlorophenol oxidation kinetics by Fenton's reagent," Environmental Technology, Vol. 17, no. 12, pp. 1371-1378, 1996.