Degradation of Carbamazepine in Water by UV-activated Sulfite Process

In this study，the degradation efficiency and mechanism of carbamazepine（CBZ），a typical emerging contaminant in water，in the UV/sulfite process were investigated. The effects of different concentrations of dissolved oxygen［ρ（DO）］on the degradation of CBZ by UV-activated sulfite were investigated. Additionally，under a simulated natural water environment-controlled initial ρ（DO）of（8. 0 ± 0. 2）mg·L−1，the effects of different process parameters（sulfite dosages and reaction pH）and water environmental factors（the presence of HCO3−，Cl−，and humic acids）on the degradation of CBZ were comprehensively analyzed. The results showed that the UV/sulfite process efficiently degraded CBZ with a degradation rate of 85. 3% during the 30 min reaction time and followed the pseudo-first order kinetic model with the constant of 0. 055 7 min−1. Using the electron spin resonance detection，reactive species quenching tests，and the competition kinetics，the sulfate radicals（SO4−·）and hydroxyl radicals（·OH）in the UV/sulfite process were determined to be the main reactive species and were responsible for the degradation of CBZ with contribution rates of 43. 9% and 56. 1%，respectively. In addition，the degradation efficiency of CBZ decreased with the increasing concentration of HCO-3，and the presence of Cl− had little effect on the degradation of CBZ，whereas the presence of humic acids significantly inhibited the degradation of CBZ. Moreover，the accumulation of sulfate during the reaction was significantly lower than the limit of the Standard for Drinking Water（GB5749-2022）. Additionally，the sulfite consumption rate constant was 0. 004 4 min−1，which was significantly lower than the degradation rate constant of CBZ，indicating that sulfite could be activated efficiently by UV light to degrade CBZ in water. © 2024 Science Press. All rights reserved.