Electrokinetic-Fenton for the remediation low hydraulic conductivity soil contaminated with petroleum

The use of electrokinetic Fenton (EK Fenton) process, as promising soil remediation approach, was investigated by using an iron electrode with different supporting electrolytes (tap water, H2O2, and citric acid) to depollute soil spiked with petroleum where kaolin was selected as low hydraulic condu...

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Veröffentlicht in:Chemosphere (Oxford) 2020-06, Vol.248, p.126029-126029, Article 126029
Hauptverfasser: Paixão, I.C., López-Vizcaíno, R., Solano, A.M.S., Martínez-Huitle, C.A., Navarro, V., Rodrigo, M.A., dos Santos, E.V.
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Sprache:eng
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Zusammenfassung:The use of electrokinetic Fenton (EK Fenton) process, as promising soil remediation approach, was investigated by using an iron electrode with different supporting electrolytes (tap water, H2O2, and citric acid) to depollute soil spiked with petroleum where kaolin was selected as low hydraulic conductivity. The results clearly confirm that, the combination of electrokinetic remediation (EK) and Fenton technologies, is an efficient oxidizing approach for removing hydrocarbons from this kind of soil. In fact, the electrokinetic Fenton reactions and the control of the soil pH conditions by adding citric acid enhanced the oxidation process because the addition of the H2O2 with iron electrode resulted in higher removal efficiencies (89%) for total petroleum hydrocarbons (TPHs). These figures allowed to confirm that EK Fenton process with pH control contributed for the transport of H2O2 and Fe2+ ions in the soil by electromigration and eletro-osmotic phenomena. Conversely, no control of pH conditions when only EK was applied, achieved lower hydrocarbons removal (27%) after 15 d of treatment due to the precipitation of iron ions. Finally, the efficiency of the EK Fenton remediation prevented the generation of secondary effluent with higher organic content, avoiding its treatment by other advanced oxidation process. •Electrokinetic-Fenton remediation was investigated to removal petroleum in low hydraulic conductivity soil.•The addition of H2O2 and citric acid favor the oxidation of the organic compounds in the soil.•The use of an iron electrode and the control of the soil pH contributed to removal TPH from soil.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2020.126029