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Enhancing disinfection and microcontaminant removal by coupling LED driven UVC and UVA/photo-Fenton processes in continuous flow reactors

Alam G. Trovó, María Guadalupe Pinna-Hernández, P. Soriano-Molina, Eva Jambrina-Hernández, Ana Agüera, J.L. Casas López, J.A. Sánchez Pérez

2024The Science of The Total Environment11 citationsDOIOpen Access PDF

Abstract

For the first time, the sequential combination of UVC-LED (276 nm) and photo-Fenton/UVA-LED (376 nm) process has been assessed in continuous flow mode for wastewater reclamation according to the new European Regulation for reuse in agricultural irrigation (EU 2020/741). The results show that it is possible to obtain water quality class B (Escherichia coli ≤ 100 CFU/100 mL) by UVC-LED irradiation alone, operating the system with a hydraulic residence time (HRT) of 6.5 min and liquid depth of 5 cm in the case of secondary effluents with low Escherichia coli load (8.102–3.1.103 CFU/100 mL). As for high bacteria concentrations (1.2–4.2.104 CFU/100 mL), HRTs longer than 30 min are required. The bacterial load has not influenced decontamination, removing 18 ± 4 % of microcontaminants. Coupling the UVC (30-min HRT and 5.0 cm liquid depth) and the UVA/photo-Fenton (60-min and 15-cm liquid depth) systems allows 58 ± 4 % of real organic microcontaminants to be removed, in addition to achieving water quality class B.

Topics & Concepts

EffluentWastewaterChemistryHuman decontaminationHydraulic retention timePulp and paper industryResidence time (fluid dynamics)Environmental scienceEnvironmental chemistryChromatographyEnvironmental engineeringWaste managementGeotechnical engineeringEngineeringWater Treatment and DisinfectionWastewater Treatment and ReuseWater Quality Monitoring Technologies
Enhancing disinfection and microcontaminant removal by coupling LED driven UVC and UVA/photo-Fenton processes in continuous flow reactors | Litcius