Enhanced removal of perfluorooctanoic acid by VUV/sulfite/iodide: efficiencies, influencing factors, and decomposition mechanism†

IF 3.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL Environmental Science: Water Research & Technology Pub Date : 2024-07-08 DOI:10.1039/D4EW00198B
Hong Liu, Ruibao Jia, Xiaodong Xin, Weilin Guo, Wei Li, Mingquan Wang and Shaohua Sun
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Abstract

Perfluoroalkyl acids (PFAAs) such as perfluorooctanoic acid (PFOA) have been referred to as “forever chemicals” and are toxic and bioaccumulative. Previous studies have indicated that the defluorination of PFOA is incomplete by various advanced reductive processes. In this study, we proposed combining sulfite (SO32−) with iodide (I) for the advanced reduction of PFOA under vacuum ultraviolet (VUV) radiation. The degradation and defluorination ratios of PFOA reached 100% within 30 min and 99.2% within 6 h, respectively. Hydrated electrons (eaq) and VUV photolysis are major contributors to PFOA removal. The VUV/SO32−/I system was superior to UV/SO32−/I for PFOA decomposition with a synergistic factor of 1.36 and a higher eaq yield. The optimal dosage of I could be reduced by half owing to the stronger absorption coefficient under VUV radiation. HCO3, Cu2+, and humic acid could inhibit the decomposition of PFOA. Fe3+ and SO42− had slight and negligible effects on the performance of the VUV/SO32−/I process, respectively. We determined the most active sites for nucleophilic attack by utilizing the Fukui function indices of PFOA anions using density functional theory (DFT) calculations. C7 polyfluorinated carboxylate esters, short-chain hydrogen-containing and sulfonated intermediates were identified in PFOA degradation for the first time in the study. This study provides a feasible approach for the environmental remediation of PFOA.

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紫外线/亚硫酸盐/碘化物增强了对全氟辛酸的去除:效率、影响因素和分解机制
全氟烷基酸(PFOA)被称为 "永远的化学品",具有毒性和生物累积性。以往的研究表明,通过各种先进的还原工艺,PFOA 的脱氟是不完全的。本研究提出将亚硫酸盐(SO32-)和碘化物(I-)结合起来,在真空紫外线(VUV)辐射下进行全氟辛烷磺酸的高级还原过程。在30分钟内,PFOA的降解率和脱氟率分别达到100%和99.2%。水合电子(eaq-)和 VUV 光解是去除 PFOA 的主要因素。紫外/SO32-/I-对 PFOA 的分解效果优于紫外/SO32-/I-,协同系数为 1.36,eaq-的产量更高。由于紫外线辐射下的吸收系数更强,I-的最佳用量减少了一半。HCO3-、Cu2+ 和腐植酸对分解有抑制作用。Fe3+和SO42-对紫外/SO32-/I-过程的性能分别有轻微影响和可忽略不计的影响。通过密度泛函理论(DFT)计算,我们利用全氟辛酸阴离子的福井函数指数找到了最活跃的亲核攻击位点。研究首次发现了 C7 多氟羧酸酯、含氢短链和磺化中间体在 PFOA 降解过程中的作用。该研究为全氟辛酸的环境修复提供了一种可行的方法。
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来源期刊
Environmental Science: Water Research & Technology
Environmental Science: Water Research & Technology ENGINEERING, ENVIRONMENTALENVIRONMENTAL SC-ENVIRONMENTAL SCIENCES
CiteScore
8.60
自引率
4.00%
发文量
206
期刊介绍: Environmental Science: Water Research & Technology seeks to showcase high quality research about fundamental science, innovative technologies, and management practices that promote sustainable water.
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Back cover Wastewater surveillance for public health: Quo Vadis? Back cover Assessment and application of GeneXpert rapid testing for respiratory viruses in school wastewater† Applicability of β-lactamase entrapped agarose discs for removal of doripenem antibiotic: reusability and scale-up studies†
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