| 电凝聚臭氧化耦合工艺的有机物处理特性及去除机制解析 |
| 摘要点击 2917 全文点击 1097 投稿时间:2020-06-15 修订日期:2020-07-23 |
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| 中文关键词 电凝聚臭氧化耦合(E-HOC) 协同作用 电絮凝 表面羟基 臭氧化 |
| 英文关键词 electro-hybrid ozonation-coagulation (E-HOC) synergistic effects electrocoagulation surface hydroxyl groups ozonation |
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| 中文摘要 |
| 以污水厂二级出水溶解性有机物强效去除为目的,本研究构建了电凝聚臭氧化耦合(E-HOC)体系,明确了该体系对污水厂二级出水及布洛芬的处理特性,探明了有机物的强化去除机制.结果表明,在pH5条件下,E-HOC工艺对二级出水溶解性有机物的去除效果更优,相较于臭氧氧化、电絮凝工艺、预臭氧化-电絮凝工艺、电絮凝串联臭氧工艺以及化学混凝工艺分别提高了46.4%、20.0%、19.4%、36.1%和49.7%.为进一步明确该耦合工艺去除溶解性有机物的机制,基于淬灭实验和EPR特征峰谱图分析,证实了金属盐混凝剂可作为催化剂有效地提高羟基自由基(·OH)的产量,揭示了该耦合体系存在臭氧混凝协同增效(SOC)反应.傅立叶红外的分析结果表明,Al阳极电解产生的混凝剂水解物表面羟基为SOC反应中产生·OH的活性位点.基于有机物在E-HOC体系中的动力学特性,解析了耦合体系中有机物的去除机制,SOC反应和臭氧氧化反应在E-HOC体系的有机物去除过程中作用显著,SOC反应为·OH的生成提供了一种新的途径. |
| 英文摘要 |
| To improve the removal efficiency of dissolved organic matter in wastewater treatment plant (WWTP) effluent, electro-hybrid ozonation-coagulation (E-HOC) is proposed and the treatment characteristics and removal mechanism for WWTP effluent and ibuprofen (IBP) are investigated. The E-HOC process has a better removal effect on dissolved organic matter in WWTP effluent, achieving 46.4%, 20.0%, 19.4%, 36.1%, and 49.7% higher removal than EC, ozonation, pre-ozonation-EC, electrocoagulation-ozonation, and chemical coagulation, respectively. To determine the mechanism of the E-HOC process, quenching experiments and electron paramagnetic resonance (EPR) were conducted, which confirmed that metal coagulants can be used as a catalyst to effectively increase the generation of the hydroxyl radical (·OH). Synergistic effects between ozone and the coagulants (SOC) were also found to be involved. Fourier-transform infrared spectroscopy (FT-IR) illustrated that the surface hydroxyl groups of the coagulant (hydrolyzed species produced by Al anode electrolysis) were the active sites for the generation of·OH in the SOC reaction. Based on a kinetics analysis of organic matter removal in the E-HOC system, SOC effects and ozonation played dominant roles in the E-HOC process. Additionally, the SOC created a new pathway for·OH formation. |
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