期刊
APPLIED CATALYSIS B-ENVIRONMENTAL
卷 328, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apcatb.2023.122511
关键词
Microcystis aeruginosa; Peroxymonosulfate; La 2 CuO 4 perovskite; Algal organic matters; Microcystin-LR
A novel perovskite-type catalyst was developed for emergency removal of harmful algae in water. The results showed that La2CuO4/PMS system achieved significant removal efficiency of Microcystis aeruginosa cells (97%) and chlorophyll-a (100%) within 20 minutes without significant release of dissolved organic carbon and metals in water. The generation of & BULL;OH, SO4 & BULL;-, 1O2, and & BULL;O2- was responsible for algae inactivation and subsequent algal organic matters removal. The proposed heterogeneous catalytic mechanism suggested that La portion in La2CuO4 destabilized the cells by increasing zeta potential of algae suspension, while Cu portion facilitated electron transfer to improve the yields of & BULL;OH and SO4 & BULL;-. This study demonstrates that the new catalytic PMS process promises viable and effective control of harmful algal bloom impacts in water treatment.
The cyanobacterial blooms induced water safety problems have attracted tremendous concerns due to the adverse influences on aqueous ecosystem and human health. This study developed a novel perovskite-type catalyst for heterogeneous peroxymonosulfate (PMS) activation as an emergency measure to remove harmful algae. The results indicated that significant removal efficiency of Microcystis aeruginosa cells (97%) and chlorophyll-a (100%) was achieved within 20 min in La2CuO4/PMS system without significant release of dissolved organic carbon and metals in water. & BULL;OH, SO4 & BULL;-, 1O2 and & BULL;O2- generated were all responsible for algae inactivation and subsequent algal organic matters removal. Moreover, the heterogeneous catalytic mechanism was proposed that La portion in La2CuO4 favored the cells destabilization by increasing zeta potential of algae suspension, while variable Cu portion facilitated the electron transfer to improve the yields of & BULL;OH and SO4 & BULL;-. This study demonstrates that the new catalytic PMS process promises viable and effective control of harmful algal bloom impacts in water treatment.
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