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Identification of organic compounds in landfill leachate treated by advanced oxidation processes

Scandelai, Ana Paula Jambers, Sloboda Rigobello, Eliane, Oliveira, Beatriz Lopes Corso de, Tavares, Célia Regina Granhen
Environmental technology 2019 v.40 no.6 pp. 730-741
atrazine, biochemical oxygen demand, bisphenol A, catalysts, chemical oxygen demand, decolorization, effluents, environmental technology, gas chromatography-mass spectrometry, hexazinone, landfill leachates, organic matter, oxidation, ozonation, ozone, p-cresol, physicochemical properties, titanium dioxide, toxic substances, toxicity, turbidity, zinc oxide
Landfill leachates are considered to be complex effluents of a variable composition containing many biorecalcitrant and highly toxic compounds. Considering the shortage of studies concerning the treatment of landfill leachates using ozone, as well as its combination with catalysts, the aim of this paper was to identify the organic compounds in this effluent treated with advanced oxidation processes (AOPs) of ozonation (O₃), and heterogeneous catalytic ozonation with TiO₂ (O₃/TiO₂) and with ZnO (O₃/ZnO). In addition, this study sought to assess the efficiency of the removal of the organic matter present in the leachate. For the pre- and post-AOPs, the leachate was characterized through physicochemical parameters and identification of organic compounds using gas chromatography coupled to the mass spectrometry (GC-MS). The three processes studied (O₃, O₃/TiO₂, and O₃/ZnO) presented color removal, turbidity, BOD above 95%, and lower COD removals (19%, 24%, and 33%, respectively). All AOPs studied promoted a similar reduction of organic compounds from leachate, some of which with toxic and carcinogenic potential, such as p-cresol, bisphenol A, atrazine, and hexazinone. In addition, upon the removal of organic matter and organic compounds, the heterogeneous catalytic ozonation processes proved more efficient than the process carried out only with ozone.