Yuwei Pan, Ying Zhang, Ming-hua Zhou
Dec 1, 2018
Citations
1
Influential Citations
61
Citations
Journal
Chemical Engineering Journal
Abstract
Abstract Sulfamethazine (SMT) is widely used in human and veterinary medicine as growth promoters and antibacterial drugs and it can pose potential threats to human and ecosystem health. In this study, removal of SMT by ultrasound pre-magnetized Fe0/PS process was investigated for the first time. Degradation rate for removing SMT increased 3.3 folds and the synergy factor increased from 1.2 to 2.7 compared with US/Fe0/PS process. Affecting factors such as pH (3–10), Fe0 dosage (0–0.8 mM) and initial SMT concentration (0–10 mg L−1) were studied. Stronger signals of DMPO–OH and DMPO–SO4 adduct also illustrated more and faster SO4 − and OH radicals produced in the system. FeOOH was detected through the mossbauer spectrum which could both enhance the catalysis of H2O2 and activation of PS. The intermediates of the SMT degradation were investigated, and a degradation pathway was proposed. Higher correlation factor (△k and △S) in US/pre-magn-Fe0/PS system illustrated the good synergistic effect between US input power and magnetic field. Moreover, the process could efficiently remove SMT in municipal wastewater and keep pH neutral. So, US/pre-magn-Fe0/PS process is a energy saving and promising approach to remove antibiotics in real wastewater.