Removal of diclofenac by UV-B and UV-C light-emitting diodes (LEDs) driven advanced oxidation processes (AOPs): Wavelength dependence, kinetic modelling and energy consumption
Fecha
2023
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Elsevier
Resumen
In this study, the degradation of diclofenac (DCF), a frequently detected non-steroidal pharmaceutical, was
evaluated by using UV-B and UV-C (265, 285, and 310 nm) light-emitting diodes (LEDs) alone and in combination with hydrogen peroxide (UV/H2O2) and free chlorine (UV/FC). The degradation of DCF followed a pseudo
first-order kinetic, and their trend reflected the pattern of the molar absorption coefficients of the DCF and the
oxidants. A positive synergistic factor was found for the UV-LED driven advanced oxidation processes in almost
all cases, but despite the higher degradation rates, the overall electricity demand is similar to UV alone due to the
oxidants’ energy cost. The rigorous kinetic degradation mechanisms at different wavelengths were proposed for
the two processes, UV/H2O2 and UV/FC, where the predicted values were respectively kHO = 9.12 ⋅ 109 M− 1 s
− 1
and kCl = 1.30 ⋅ 1010 M− 1 s
− 1
. No significant synergy (p > 0.05) was found for the dual-wavelength system (265
+ 285 nm), and the time-based constants in all cases changed linearly with lamp intensity. Finally, dissolved
organic carbon and phytotoxicity analysis revealed low mineralisation (around 20–30%) associated with the
formation of stable dimers and a decrease in toxicity towards tomato and radish seeds. In the main, this work
shows the great potential of implementing wavelength-specific LEDs in water treatments and effectively
designing the reactor playing with adjustable intensities and kinetic degradation rates.
Descripción
The authors acknowledge the financial support of the European Union’s Horizon 2020 research and innovation programme in the frame of REWATERGY, Sustainable Reactor Engineering for Applications on the Water-Energy Nexus, MSCA-ITN-EID Project N. 812574. R. Pizzichetti would also like to thank Anna Hogan for her help with the HPLC.
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Citación
Raffaella Pizzichetti, Ken Reynolds, Cristina Pablos, Cintia Casado, Eric Moore, Simon Stanley, Javier Marugán, Removal of diclofenac by UV-B and UV-C light-emitting diodes (LEDs) driven advanced oxidation processes (AOPs): Wavelength dependence, kinetic modelling and energy consumption, Chemical Engineering Journal, Volume 471, 2023, 144520, ISSN 1385-8947, https://doi.org/10.1016/j.cej.2023.144520
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