在甲酸和柠檬酸存在下，Fe(II)催化过氧化钙体系增强了氯化碳氢化合物的氧化还原降解。

Enhanced redox degradation of chlorinated hydrocarbons by the Fe(II)-catalyzed calcium peroxide system in the presence of formic acid and citric acid.

机构信息

State Environmental Protection Key Laboratory of Environmental Risk Assessment and Control on Chemical Process, East China University of Science and Technology, Shanghai, 200237, China; Shanghai Institute of Pollution Control and Ecological Security, Shanghai, 200092, China.

State Environmental Protection Key Laboratory of Environmental Risk Assessment and Control on Chemical Process, East China University of Science and Technology, Shanghai, 200237, China.

出版信息

J Hazard Mater. 2019 Apr 15;368:506-513. doi: 10.1016/j.jhazmat.2019.01.057. Epub 2019 Jan 24.

DOI:10.1016/j.jhazmat.2019.01.057

PMID:30710779

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7039336/

Abstract

Two carboxylic acids (formic acid (FA) and citric acid (CIT)) enhanced the Fenton process using Fe(II)-activated calcium peroxide (CP) to develop a hydroxyl (HO) and carbon dioxide radical (CO) coexistence process for the simultaneous redox-based degradation of three chlorinated hydrocarbons (CHs), namely carbon tetrachloride (CT), tetrachloroethene (PCE), and trichloroethene (TCE), was investigated. The experimental results showed that CT removal was increased while PCE and TCE degradation were decreased with the addition of FA to the Fe(II)/CP system. However, addition of CIT to the Fe(II)/CP/FA system enhanced the removal efficiency of all three contaminants. For example, 81.7%, 79.4%, and 96.1% of CT, PCE, and TCE, respectively, were removed simultaneously under the optimal molar ratio of 12/12/12/12/1 of CIT/CP/Fe(II)/FA/CHs. Mechanism study confirmed the specific roles of HO and secondarily generated CO radical. PCE and TCE were degraded oxidatively by HO while CT was degraded via reductive dechlorination by CO. Carbonate reduced PCE and TCE degradation in actual groundwater as it consumed reactive oxygen species, whereas humic acid and neutral pH had minimal impact on contaminant removal. These results can help us better understand the synergistic effects of carboxylic acids in the modified Fenton process for the redox degradation of refractory chlorinated hydrocarbons.

摘要

两种羧酸（甲酸（FA）和柠檬酸（CIT））增强了使用 Fe(II)激活过碳酸钠（CP）的芬顿过程，开发了羟基（HO）和二氧化碳自由基（CO）共存过程，用于同时基于氧化还原的降解三种氯代烃（CHs），即四氯化碳（CT）、四氯乙烯（PCE）和三氯乙烯（TCE）。实验结果表明，随着 FA 添加到 Fe(II)/CP 系统中，CT 的去除率增加，而 PCE 和 TCE 的降解率降低。然而，CIT 的添加到 Fe(II)/CP/FA 系统中增强了所有三种污染物的去除效率。例如，在 CIT/CP/Fe(II)/FA/CHs 的最佳摩尔比为 12/12/12/12/1 的条件下，CT、PCE 和 TCE 的去除率分别为 81.7%、79.4%和 96.1%。机理研究证实了 HO 和次生生成的 CO 自由基的特定作用。HO 氧化降解 PCE 和 TCE，而 CT 通过 CO 的还原脱氯降解。碳酸根还原了实际地下水中的 PCE 和 TCE 降解，因为它消耗了活性氧物种，而腐殖酸和中性 pH 值对污染物去除的影响最小。这些结果可以帮助我们更好地理解羧酸在改良芬顿过程中对难降解氯代烃的氧化还原降解的协同作用。

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