Efficiency of UV-Oxidation in Removal of Pharmaceuticals from Waster Water Samples and Toxicological Evaluation Before and After the Oxidative Treatment

Abstract: To gain biologically and chemically safe conditions in aquatic systems, as required by the EU Water Framework Directive, advanced oxidation processes are the only conceivable possibility to remove pharmaceuticals and their metabolites from waste water. Water treatment plants are not designed for the complete mineralization of these substances, so that oxidation by-products occur, whose chemical and toxicological properties are often unknown. In this study an UV-oxidation system with and without H2O2 was tested… Show more

“…Although simple UV light application does not yield satisfactory results, amendment of oxidizing agents (H 2 O 2 , S 2 O 8 2− ) together with the UV light potential for generating radicals has shown significant improvements. 13,14…”

“…Although simple UV light application does not yield satisfactory results, amendment of oxidizing agents (H 2 O 2 , S 2 O 8 2− ) together with the UV light potential for generating radicals has shown significant improvements. 13,14 One of the major concerns regarding AOP-based technologies for water purification is that most organic pollutants are not completely mineralized but are partially oxidized into transformation products (TPs), adding chemical composition complexity to the treated water and posing risks to humans, ecological systems, and the environment. 15 One parent compound can be oxidized into several TPs.…”

Evaluation and comparison of UV/H₂O₂ and adsorption on active carbon as a tertiary wastewater treatment for pharmaceutical removal within a small WWTP: a pilot study

“…Although simple UV light application does not yield satisfactory results, amendment of oxidizing agents (H 2 O 2 , S 2 O 8 2− ) together with the UV light potential for generating radicals has shown significant improvements. 13,14…”

“…Although simple UV light application does not yield satisfactory results, amendment of oxidizing agents (H 2 O 2 , S 2 O 8 2− ) together with the UV light potential for generating radicals has shown significant improvements. 13,14 One of the major concerns regarding AOP-based technologies for water purification is that most organic pollutants are not completely mineralized but are partially oxidized into transformation products (TPs), adding chemical composition complexity to the treated water and posing risks to humans, ecological systems, and the environment. 15 One parent compound can be oxidized into several TPs.…”

Evaluation and comparison of UV/H₂O₂ and adsorption on active carbon as a tertiary wastewater treatment for pharmaceutical removal within a small WWTP: a pilot study

Reduction of residual topical diclofenac in waste water by a wiping procedure before hand washing

Conventional and Advanced Processes for the Removal of Pharmaceuticals and Their Human Metabolites from Wastewater