Increased biodegradability of the fungicide imazalil after photo-Fenton treatment in solar pilot plant

LOVEIRA, ELSA LÓPEZ; BABAY, PAOLA; ESPINOSA, MARIELA; CANDAL, ROBERTO; FANTONI, SOFIA; CURUTCHET, GUSTAVO

Journal of Environmental Chemical Engineering

Elsevier Ltd

Año: 2019 vol. 7 p. 1 - 8

2213-3437

Wastewater containing pesticides released to water courses without any previous treatment produces an extremely negative impact into the environment, causing concern among the population and authorities. Imazalil (IMZ) is a post-harvest fungicide used on a myriad of fruit crops; it is classified as "likely to be carcinogenic in humans" and produce a negative impact on the biota. In this work we propose a coupled solar Fenton-Biological process in a pilot plant for the treatment of water containing the fungicide IMZ and organic coadjutants. Water solutions containing up to 500 mg/L IMZ, 500 mgC/L TOC and 1300-1400 mgO2/L COD were partially oxidized by Solar-Fenton process. For the first time, the efficiency of the treatment in the Buenos Aires area during different seasons was studied. In summer the treatment was faster but less efficient than in winter. Organic compounds were converted to organic acids like malic, formic and oxalic acids. The resultant solution was biodegraded using consortium adapted to IMZ oxidation byproducts without the incorporation of any extra carbon sources. As a result of the treatment TOC and COD were reduced to acceptable values for discharge in sewage, and its toxicity (determined by assays on Lactuca sativa L.) was significantly decreased. These results exemplified the advantages of combining advanced oxidation with the biological process for recalcitrant compounds degradation.