Giannakis, StefanosJovic, MilicaGasilova, NataliaPastor Gelabert, MiquelSchindelholz, SimonFurbringer, Jean-MarieGirault, HubertPulgarin, César2016-08-022016-08-022016-08-02201710.1016/j.jenvman.2016.07.004https://infoscience.epfl.ch/handle/20.500.14299/128215WOS:000403864500011In this work, an Iodinated Contrast Medium (ICM), Iohexol, was subjected to treatment by 3 Advanced Oxidation Processes (AOPs) (UV, UV/H2O2, UV/H2O2/Fe2+). Water, wastewater and urine were spiked with Iohexol, in order to investigate the treatment efficiency of AOPs. A tri-level approach has been deployed to assess the UV-based AOPs efficacy. The treatment was heavily influenced by the UV transmittance and the organics content of the matrix, as dilution and acidification improved the degradation but iron/H2O2 increase only moderately. Furthermore, optimization of the treatment conditions, as well as modeling of the degradation was performed, by step-wise constructed quadratic or product models, and determination of the optimal operational regions was achieved through desirability functions. Finally, global chemical parameters (COD, TOC and UV-Vis absorbance) were followed in parallel with specific analyses to elucidate the degradation process of Iohexol by UV-based AOPs. Through HPLC/MS analysis the degradation pathway and the effects the operational parameters were monitored, thus attributing the pathways the respective modifications. The addition of iron in the UV/H2O2 process inflicted additional pathways beneficial for both Iohexol and organics removal from the matrix.Iodinated Contrast MediaWastewater treatmentUrine purificationModeling and optimizationDegradation pathwayAdvanced Oxidation Processtext::journal::journal article::research article