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UV LED wastewater disinfection: The future is upon us

Sean A. MacIsaac, Bailey Reid, C. Carolina Ontiveros, Karl G. Linden, Amina K. Stoddart, Graham A. Gagnon

2024Water Research X22 citationsDOIOpen Access PDF

Abstract

The world's first full-scale, 280 nm UV LED reactor for wastewater disinfection was tested at flows of 545 and 817 m3 day−1. The system achieved a > 3 average log reduction of total coliform at 545 m3 day−1 and the 817 m3 day−1 flow rate achieved over a > 2.5 average log reduction for all operational conditions. The delivered fluence of the full-scale system ranged from 28 to 148 mJ cm−2 and aligns with a UV auditing study that was conducted prior to the installation of the wastewater reactor. These results benchmark the performance that can be achieved by UV LED disinfection and further connect bench-scale disinfection results with full-scale performance. The approach established in this manuscript provides a novel tool for utilities when considering emerging UV disinfection technologies. In summary, this study establishes that UV LEDs are an effective wastewater disinfectant at-scale and are comparable to conventional low-pressure UV systems. This is the first instance where the efficacy of UV LEDs for municipal wastewater disinfection has been demonstrated using a large-scale installation at a functioning wastewater facility.

Topics & Concepts

WastewaterWater disinfectionWaste managementEnvironmental scienceBusinessEnvironmental engineeringEngineeringWater Treatment and DisinfectionHydrogen's biological and therapeutic effectsTiO2 Photocatalysis and Solar Cells
UV LED wastewater disinfection: The future is upon us | Litcius