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Treatment of mature landfill leachate by electrocoagulation followed by Fenton or UVA-LED photo-Fenton processes

Javier Tejera, Daphne Hermosilla, Antonio Gascó, Rubén Miranda, Víctor Alonso‐Gómez, Carlos Negro, Ángeles Blanco

2021Journal of the Taiwan Institute of Chemical Engineers44 citationsDOIOpen Access PDF

Abstract

The main objective of this study is to optimize a two-step treatment for mature landfill leachate consisting of electrocoagulation (EC) followed by Fenton or UVA-LED photo-Fenton processes aiming to provide a more efficient and feasible alternative treatment strategy that also increases biodegradability and decreases conductivity. Although 5 mA cm−2 EC is cheaper than 10 mA cm−2 EC per kg of removed COD (0.63 vs. 0.89 € kgCOD−1), it achieved the half total COD removal (13% compared to 26%), and the low residual iron concentration (100 mg L−1) that remained at the end of the process made necessary a long treatment time to perform the posterior Fenton (48 h) or UVA-LED photo-Fenton (6 h) process. When EC was performed at 10 mA cm−2, the residual iron concentration (220 mg L−1) was high enough to reduce treatment time by one half for both Fenton processes. Consequently, treatment cost decreases from 5.91 to 3.48 € kgCOD−1 for the EC + UVA-LED photo-Fenton ([H2O2]/COD = 1.063) treatment combination; whereas it slightly decreases from 1.68 to 1.61 € kgCOD−1 for the alternative EC + conventional Fenton combination. In both cases, total COD removal was around 87%. In addition, SUVA removal was >40%, conductivity was reduced about 20–30%, and biodegradability (BOD5/COD) increased over 0.3.

Topics & Concepts

LeachateChemistryElectrocoagulationBiodegradationPulp and paper industryNuclear chemistryEnvironmental chemistryOrganic chemistryEngineeringPhysical chemistryAdvanced oxidation water treatmentLandfill Environmental Impact StudiesEnvironmental remediation with nanomaterials
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