Electrical Energy Consumption of Multiscale UV-AOP Reactors for Micropollutant Removal in Drinking Water: Facilitated Prediction by Reaction Rate Constants Measured on a Mini-Fluidic Photoreaction System

Abstract: Electrical energy consumption per order (E EO ) is an important figure-of-merit for the selection and optimization of ultraviolet (UV)-based advanced oxidation processes (UV-AOPs). However, E EO applications are limited by the lack of an accurate and facilitative evaluation method because E EO presents reactor property dependence. In this study, we developed an E EO prediction method for multiscale UV-AOP reactors for micropollutant removal in water. The method utilized the reaction rate constants determined i… Show more

“…Therefore, sulfate formation might not be a concern in the UV 222 /PDS AOP under the operational conditions. The use of UV 254 /PDS AOP for drinking water treatment has also been widely studied at bench-scale ,− and recently been studied at pilot-scale . Examples are also found to apply this process for potable water reuse. , The UV 222 /PDS AOP is believed to be practically useful after the researchers/engineers eliminate some other concerns (e.g., quenching, cost, and byproducts).…”

Far-UVC Photolysis of Peroxydisulfate for Micropollutant Degradation in Water

“…Therefore, sulfate formation might not be a concern in the UV 222 /PDS AOP under the operational conditions. The use of UV 254 /PDS AOP for drinking water treatment has also been widely studied at bench-scale ,− and recently been studied at pilot-scale . Examples are also found to apply this process for potable water reuse. , The UV 222 /PDS AOP is believed to be practically useful after the researchers/engineers eliminate some other concerns (e.g., quenching, cost, and byproducts).…”

Far-UVC Photolysis of Peroxydisulfate for Micropollutant Degradation in Water

Treatment of emerging pyrrolizidine alkaloids in drinking water by UV/persulfate process: Kinetics, energy efficiency and degradation pathway

New solution for predicting the removal efficiency of organic contaminants by UV/ H2O2: From a case study of 1H-benzotriazole