Optimized performance and mechanistic analysis of tetracycline hydrochloride removal using biochar-based alginate composite magnetic beads for peroxymonosulfate activation

盐酸四环素 生物炭 复合数 化学 四环素 化学工程 核化学 盐酸盐 色谱法 制浆造纸工业 材料科学 复合材料 热解 有机化学 生物化学 抗生素 工程类
作者
Weipeng Zou,Meng Zhang,Xinbo Zhang,Dan Zhang,Chaocan Li,Lingling Zhong,Wenshan Guo,Huu Hao Ngo
出处
期刊:Journal of environmental chemical engineering [Elsevier BV]
卷期号:13 (2): 115742-115742 被引量:18
标识
DOI:10.1016/j.jece.2025.115742
摘要

Tetracycline, an antibiotic notorious for its ecotoxicity and propensity to induce bacterial resistance, poses significant threats to ecosystems and human health. In this study, we synthesized a magnetic biochar-iron-lanthanum cross-linked alginate beads (Fe/La@BCB) composite material through a gel-calcination method to activate peroxymonosulfate (PMS) for the degradation of tetracycline hydrochloride (TCH). Results revealed that under pH 7 conditions, employing 0.2 g/L Fe/La@BCB and 0.3 g/L PMS, TCH's removal efficiency and mineralization rate (30 mg/L) within 60 min were 90.52 % and 30.49 %, respectively. The degradation of TCH was attributed to the synergistic action of multiple reactive oxygen species (SO 4 -• , •OH, 1 O 2 and O 2 •- ) as evidenced by free radical quenching experiments. Specifically, the electron transfer among Fe/La oxides, oxygen-containing functional groups, and defective structures played a pivotal role in generating free radicals upon activation of PMS. Furthermore, the catalyst demonstrated remarkable long-term stability, maintaining a removal efficiency of 79.87 % even after six consecutive cycles. Analysis of intermediate degradation products elucidated degradation pathways of TCH involving hydroxylation and ring-opening reactions. In conclusion, this novel magnetic catalyst exhibits high efficiency, facile recovery, and robust structural stability, making it highly promising for effectively activating PMS to degrade antibiotics in wastewater. Moreover, it offers insights into addressing catalyst recovery challenges in practical applications. • Fe/La@BCB demonstrated excellent catalytic performance in activating PMS. • Degradation of TCH was enhanced by synergistic catalysis of biochar with Fe/La. • Degradation of TCH owned to the combined action of SO 4 - • , •OH, 1 O 2 and O 2 •- . • Beaded Fe/La@BCB was easily separated and exhibited good reusability. • The system is structurally stable and economically viable for long-term reuse.
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