Treatment of hazardous waste landfill leachate using Fenton oxidation process

Singa, P.K. and Isa, M.H. and Ho, Y.-C. and Lim, J.-W. (2018) Treatment of hazardous waste landfill leachate using Fenton oxidation process. In: UNSPECIFIED.

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Abstract

The efficiency of Fenton's oxidation was assessed in this study for hazardous waste landfill leachate treatment. The two major reagents, which are generally employed in Fenton's process are H2O2 as oxidizing agent and Fe2+ as catalyst. Batch experiments were conducted to determine the effect of experimental conditions viz., reaction time, molar ratio, and Fenton reagent dosages, which are significant parameters that influence the degradation efficiencies of Fenton process were examined. It was found that under the favorable experimental conditions, maximum COD removal was 56.49. The optimum experimental conditions were pH=3, H2O2/Fe2+ molar ratio = 3 and reaction time = 150 minutes. The optimal amount of hydrogen peroxide and iron were 0.12 mol/L and 0.04 mol/L respectively. High dosages of H2O2 and iron resulted in scavenging effects on OH� radicals and lowered degradation efficiency of organic compounds in the hazardous waste landfill leachate. © The Authors, published by EDP Sciences, 2018.

Item Type: Conference or Workshop Item (UNSPECIFIED)
Additional Information: cited By 18; Conference of 1st International Conference on Civil and Environmental Engineering, CENVIRON 2017 ; Conference Date: 28 November 2017 Through 29 November 2017; Conference Code:135385
Uncontrolled Keywords: Chemical oxygen demand; Degradation; Efficiency; Environmental engineering; Hazardous materials; Hazards; Iron; Iron compounds; Oxidation; pH effects; Waste treatment, Batch experiments; Degradation efficiency; Experimental conditions; Fenton oxidation process; Fenton's oxidation; Fenton's process; Hazardous waste landfills; Scavenging effect, Leachate treatment
Depositing User: Mr Ahmad Suhairi UTP
Date Deposited: 09 Nov 2023 16:37
Last Modified: 09 Nov 2023 16:37
URI: https://khub.utp.edu.my/scholars/id/eprint/10424

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