PAHs remediation from hazardous waste landfill leachate using fenton, photo � fenton and electro - fenton oxidation processes � performance evaluation under optimized conditions using RSM and ANN

Singa, P.K. and Isa, M.H. and Sivaprakash, B. and Ho, Y.-C. and Lim, J.-W. and Rajamohan, N. (2023) PAHs remediation from hazardous waste landfill leachate using fenton, photo � fenton and electro - fenton oxidation processes � performance evaluation under optimized conditions using RSM and ANN. Environmental Research, 231. ISSN 00139351

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Abstract

Polycyclic aromatic hydrocharbons (PAHs) are a class of highly toxic pollutants that are highly detrimental to the ecosystem. Landfill leechate emanated from municipal solid waste are reported to constitute significant PAHs. In the present investigation, three Fenton proceses, namely conventional Fenton, photo-fenton and electro-fenton methods have been employed to treat landfill leehcate for removing PAHs from a waste dumpig yard. Response surface methodology (RSM) and artificial neural network (ANN) methodologies were adopted to optimize and validate the conditions for optimum oxidative removal of COD and PAHs. The statistical analysis results showed that all independent variables chosen in the study are reported to have significant influence of the removal effects with P-values <0.05. Sensitivity analysis by the developed ANN model showed that the pH had the highest significance of 1.89 in PAH removal when compared to the other parameters. However for COD removal, H2O2 had the highest relative importance of 1.15, followed by Fe2+ and pH. Under optimal treatment conditions, the photo-fenton and electro-fenton processes showed better removal of COD and PAH compared to the Fenton process. The photo-fenton and electro-fenton treatment processes removed 85.32 and 74.64 of COD and 93.25 and 81.65 of PAHs, respectively. Also the investigations revelaed the presence of 16 distinct PAH compunds and the removal percentage of each of these PAHs are also reported. The PAH treatment research studies are generally limited to the assay of removal of PAH and COD levels. In the present investigation, in addition to the treatment of landfill leachate, particle size distribution analysis and elemental characterization of the resultant iron sludge by FESEM and EDX are reported. It was revealed that elemental oxygen is present in highest percentage, followed by iron, sulphur, sodium, chlorine, carbon and potassium. However, iron percentage can be reduced by treating the Fenton-treated sample with NaOH. © 2023 Elsevier Inc.

Item Type: Article
Impact Factor: cited By 1
Uncontrolled Keywords: Iron; Iron compounds; Leachate treatment; Neural networks; Oxidation; Particle size; Particle size analysis; Sensitivity analysis; Sodium hydroxide; Surface properties, COD; Electro-Fenton oxidation; Fenton oxidation process; Hazardous waste landfills; Landfill leachates; Photo-Fenton; Polycyclic aromatic hydrocharbon; Polycyclic aromatics; Process performance; Response-surface methodology, Municipal solid waste, carbon; chlorine; ferrous ion; hydrogen peroxide; iron; oxygen; polycyclic aromatic hydrocarbon; potassium; sodium; sodium hydroxide; sulfur, artificial neural network; assay; hazardous waste; landfill; leachate; municipal solid waste; oxidation; PAH; particle size; size distribution; statistical analysis, Article; artificial neural network; bioremediation; chemical composition; chemical interaction; chemical oxygen demand; comparative study; electro fenton oxidation; elemental analysis; energy dispersive X ray spectroscopy; evaluation study; factorial design; Fenton reaction; field emission scanning electron microscopy; hazardous waste site; independent variable; intermethod comparison; landfill leachate; particle size; particle size distribution; pH; photo fenton oxidation; process optimization; reaction duration (chemistry); response surface method; sensitivity analysis; sludge; solid waste management; statistical analysis; statistical significance; validation study; zeta potential; chemistry; ecosystem; oxidation reduction reaction; solid waste; water pollutant, Ecosystem; Hydrogen Peroxide; Iron; Oxidation-Reduction; Solid Waste; Water Pollutants, Chemical
Depositing User: Mr Ahmad Suhairi Mohamed Lazim
Date Deposited: 04 Oct 2023 12:43
Last Modified: 04 Oct 2023 12:43
URI: http://scholars.utp.edu.my/id/eprint/37409

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