Organic Micropollutants Removal through Performic Acid-UV Photolysis: kinetics and wastewater matrix influence - Université Gustave Eiffel
Communication Dans Un Congrès Année : 2023

Organic Micropollutants Removal through Performic Acid-UV Photolysis: kinetics and wastewater matrix influence

Résumé

Performic acid (PFA) is an emerging disinfection oxidant increasingly used in wastewater treatment. This study investigated the effectiveness of PFA activated by UV-C photolysis for the removal of 6 pharmaceutical compounds. Compared to PFA alone, PFA/UV was found to be more efficient, with pseudo-first-order rate constants of the pharmaceutical compounds varying between 4.76 ± 0.32 x10-3 and 1.14 ± 0.46 min-1, with CBZ being the least reactive and DCF the most reactive compound. Comparison between PFA/UV and H2O2/UV processes revealed that the PFA/UV process was more efficient in removing pharmaceutical compounds due to the production of specific reactive radicals during the process and not only OH° radicals. In addition, the reactivity of furosemide was found to be highly influenced by these specific radicals, rather than OH° radicals, as demonstrated by its rate constant being 15 times higher in the PFA/UV process compared to H2O2/UV. The removal of pharmaceuticals in treated wastewater effluent resulted in a removal rate ranging from 30% to 60%, with DCF being the most effectively removed compound, as expected due to its high pseudo-first-order rate constant in phosphate buffer solution.
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Dates et versions

hal-04136480 , version 1 (07-09-2023)

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Identifiants

  • HAL Id : hal-04136480 , version 1

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Christelle Nabintu Kajoka, S. Brosillon, Johnny Gasperi, Marcos Oliveira, Vincent Rocher, et al.. Organic Micropollutants Removal through Performic Acid-UV Photolysis: kinetics and wastewater matrix influence. IOA World Congress & Exhibition, Jul 2023, Milan, Italy. 4p. ⟨hal-04136480⟩
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