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Fe(Ⅵ)-CaSO3体系对磺胺甲嘧啶的去除效能与机制

陈鲲宇祝帼眉卢金锁

环境工程学报2026，Vol.20Issue(1)：87-94,8.

环境工程学报2026，Vol.20Issue(1)：87-94,8.DOI:10.12030/j.cjee.202504086

Fe(Ⅵ)-CaSO3体系对磺胺甲嘧啶的去除效能与机制

Efficiency and mechanism of sulfamethazine removal by the Fe(Ⅵ)-CaSO3 system

陈鲲宇 ¹祝帼眉 ²卢金锁³

作者信息

1. 西安建筑科技大学环境与市政工程学院,西安 710055||山东建筑大学市政与环境工程学院,济南 250101
2. 西安建筑科技大学环境与市政工程学院,西安 710055||宿迁市城市规划设计研究院有限公司,宿迁 223800
3. 西安建筑科技大学环境与市政工程学院,西安 710055
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摘要

Abstract

Sulfamerazine(SMZ)is a widely used sulfonamide antibiotic that can be detected in surface water at concentrations up to the µg·L−1 level.Conventional water treatment processes struggle to effectively remove it,posing serious risks to both the ecological environment and human health.Ferrate(Fe(Ⅵ))is an environmentally friendly multifunctional agent,but its oxidation capacity still requires enhancement through activation.Calcium sulfite(CaSO3)serves as an effective slow-release activator for Fe(Ⅵ).However,the removal efficiency and mechanism of Fe(VI)-CaSO3 system for SMZ removal need further investigation.Results indicate that with an Fe(Ⅵ)dosage of 30 μmol·L−1 and a molar ratio of[Fe(Ⅵ)]:[CaSO3]=1:3,the Fe(Ⅵ)-CaSO3 system achieved an SMZ removal rate of 81.10%within 10 min.This system is primarily governed by high-valent iron species(Fe(Ⅴ)/Fe(Ⅳ)),with the participation of·OH and SO4·−,forming a multi-reactive oxidation system.The main degradation pathways of SMZ in the Fe(Ⅵ)-CaSO3 system involve the cleavage of N–C and S–C bonds.Moreover,the oxidative degradation of SMZ is accompanied by an overall reduction in toxicity.In terms of water matrix effects,Cl−,SO42−,and NO3− had negligible impacts on the degradation efficiency.High concentrations of Ca2+and Mg2+slightly promoted oxidative degradation,whereas HCO3− and humic acid showed significant inhibitory effects.Furthermore,the Fe(Ⅵ)-CaSO3 oxidation system achieved a minimum SMZ removal rate of 67.20%across four different real water samples,demonstrating its ability to adapt to complex real water environments and exhibiting strong universality.

关键词

缓释活化/活性物种/高价态铁/降解路径/毒性评估

Key words

slow-release activation/reactive species/high-valent iron/degradation pathway/toxicity assessment

分类

资源环境

引用本文复制引用

陈鲲宇,祝帼眉,卢金锁..Fe(Ⅵ)-CaSO3体系对磺胺甲嘧啶的去除效能与机制[J].环境工程学报,2026,20(1):87-94,8.

基金项目

国家自然科学面上基金资助项目(52470014),山东省青年科技人才托举工程(SDAST2025QTB045) （52470014）

环境工程学报

ISSN：1673-9108

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