Electrochemical Transformations of Perfluoroalkyl Acid (PFAA) Precursors and PFAAs in Landfill Leachates

Maldonado, Vanessa; Schwichtenberg, Trever; Schmokel, Christopher; Witt, Suzanne E.; Field, Jennifer A.

doi:10.1021/acsestwater.1c00479

Cited by 15 publications

(15 citation statements)

References 57 publications

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“…Since SF 5 -PFSAs are perfluorinated and were not transformed in the dTOP assay (see the following section), the unsaturated SF 5 -PFSAs are expected to be side products rather than transformation products. In general, PFAS with SF 5 groups were detected in AFFFs and commercial products, ,, in biosolids and organic waste, as well as in landfill leachates, and waste water related to electronics fabrication, however, to our knowledge never as the primary PFAS contamination. Barzen-Hanson et al (2017) found SF 5 -PFAS in 3M patents from 1992 and detected them in technical products but not in groundwater.…”

Section: Resultsmentioning

confidence: 74%

“…Due to the fact that SF 5 -PFSAs seem to be the major PFAS contaminants in the BS-NRW soil, it is reasonable to assume that the contamination of the BS-NRW soil goes back to specific sources and unknown products. Previously reported SF 5 -PFAS in environmental samples were minor contaminants compared to other detected PFAS. , …”

Section: Resultsmentioning

confidence: 87%

“…Previously reported SF 5 -PFAS in environmental samples were minor contaminants compared to other detected PFAS. 7,25 Perfluoroalkyl Sulfonic Acids (PFSAs). C 4 , C 6 , and C 8 PFSAs were already detected in 2006 in the BS-NRW soil (later also C 9−10 ), 18,21 in the adjacent creek Steinebecke, in following downstream rivers such as the Moḧne River, and in drinking water.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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PFAS-Contaminated Soil Site in Germany: Nontarget Screening before and after Direct TOP Assay by Kendrick Mass Defect and FindPFΔS

Zweigle

Bugsel

Röhler

et al. 2023

Environ. Sci. Technol.

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Soil contaminations with per-and polyfluoroalkyl substances (PFAS) are of great concern due to their persistence, leading to continuous, long-term groundwater contamination. A composite sample from contaminated agricultural soil from northwestern Germany (Brilon-Scharfenberg, North Rhine-Westphalia) was investigated in depth with nontarget screening (NTS) (Kendrick mass defect and MS 2 fragment mass differences with FindPFΔS). Several years ago, selected PFCAs and PFSAs were identified on this site by detection in nearby surface and drinking water. We identified 10 further PFAS classes and 7 C 8 -based PFAS (73 single PFAS) previously unknown in this soil including some novel PFAS. All PFAS classes except for one class comprised sulfonic acid groups and were semi-quantified with PFSA standards from which ∼97% were perfluorinated and are not expected to be degradable. New identifications made up >75% of the prior known PFAS concentration, which was estimated to >30 μg/g. Pentafluorosulfanyl (−SF 5 ) PFSAs are the dominant class (∼40%). Finally, the soil was oxidized with the direct TOP (dTOP) assay, revealing PFAA precursors that were covered to a large extent by identified H-containing PFAS and additional TPs (perfluoroalkyl diacids) were detected after dTOP. In this soil, however, dTOP + target analysis covers <23% of the occurring PFAS, highlighting the importance of NTS to characterize PFAS contaminations more comprehensively.

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Section: Resultsmentioning

confidence: 74%

Section: Resultsmentioning

confidence: 87%

Section: ■ Results and Discussionmentioning

confidence: 99%

See 1 more Smart Citation

PFAS-Contaminated Soil Site in Germany: Nontarget Screening before and after Direct TOP Assay by Kendrick Mass Defect and FindPFΔS

Zweigle

Bugsel

Röhler

et al. 2023

Environ. Sci. Technol.

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“…The heterogeneous CPAO process includes two steps: () the diffusion of persulfate to the cathode surface from bulk solution (i.e., mass-transfer) , and () the activation of persulfate to produce SO 4 •– (i.e., charge-transfer) . Current studies on the CPAO process, using conventional electrochemical reactors with parallel plates operated in the batch/flow-by mode, commonly featured a poor mass-transfer performance, resulting in the low efficiency of persulfate activation and long hydraulic retention times (e.g., several hours) for water treatment .…”

Section: Introductionmentioning

confidence: 99%

Flow-Through Electrochemical Activation of Persulfate for Efficient Wastewater Treatment using Ti₄O₇ Reactive Electrochemical Membranes

et al. 2023

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Herein, a flow-through reactive electrochemical membrane (REM) system was reported for the complete activation of S 2 O 8 2− upon a single-pass through the Ti 4 O 7 REM cathode with less than 10 s of residence time. The kinetic constant for S 2 O 8 2− activation was observed at 21−109 × 10 −5 m s −1 , which is 1−2 orders of magnitude higher than the reported conventional batch/ flow-by electrochemical systems even with the addition of activators. The Ti 4 O 7 REM electrode exhibited good stability in activating S 2 O 8 2−, and the efficiency decreased by only ∼5% after 5 h of continuous operation due to scaling in a wastewater treatment plant (WWTP) effluent sample. As a proof-of-concept, the REM−persulfate system, i.e., integration of both anodic electrooxidation and cathodic persulfate-based advanced oxidation process, was successfully applied to treat both antibiotics-spiked WWTP effluent and reverse osmosis (RO) concentrate of pretreated coking wastewater. A single-pass of the REM−persulfate system achieved over 95% removal of 6 antibiotics (each 10 μg L −1 ) from WWTP effluents. As compared with the REM system without persulfate, the addition of 10 mM S 2 O 8 2− for treating RO concentrate of pretreated coking wastewater resulted in a significant increase in total organic carbon removal from 51.5 to 78.9%. However, it also resulted in the formation of chlorinated byproducts, including ClO 3 − , ClO 4 − , and absorbable organic chlorine. Techno-economic analysis with an RO concentrate of pretreated coking wastewater showed that the REM−persulfate system featured a 50% lower initial capital cost than the REM system without persulfate. Results of this study indicate the REM−persulfate system may be potentially a promising wastewater treatment technology.

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“…Ammonia-nitrogen is a ubiquitous pollutant in different kinds of wastewater and discharge of this critical nutrient into waterbody that will lead to water body eutrophication and exhibit potential risks to aquatic life. Conventional microbial processes based on ammonia removal techniques are suitable for centralized sewage water treatment, whereas the physicochemical approaches, such as membrane separation, ion exchange, air stripping, breakpoint chlorination, and advanced oxidation techniques, are suitable for small scale or in situ water or wastewater treatment. − Among the different types of physicochemical approaches, electrochemical (EC) oxidation of ammonia, particularly indirect EC oxidation relying on in situ producing reactive chlorine species, exhibits promising application prospect for the treatment of different types of wastewater containing ammonia and chloride ion, which attracts significant attention in academic research and industrial application. − …”

Section: Introductionmentioning

confidence: 99%

Unveiling the Key Roles of Various Reactive Species for Ammonia Oxidation in an Efficient Three-Dimensional Electrocatalytic System and Enlarged Scale Study for the Treatment of Practical Wastewater

Chen

Ruan

et al. 2022

ACS EST Water

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Indirect electrocatalytic (EC) oxidation of ammonia into harmless N2 based on in situ generated reactive chlorine species from chlorinated aqueous streams has been considered as an effective technique for ammonia abatement from water/wastewater. However, the precise oxidation mechanism and contribution of reactive species to the ammonia oxidation are still under debate and deserved to be specifically investigated. In order to enhance mass transfer efficiency, this work systematically investigated and optimized a three-dimensional EC (3D-EC) system, which exhibits about two times higher ammonia oxidation rate compared to a two-dimensional EC system. The polarization characters of particle electrodes have been analyzed to correlate with the enhanced generation of ·OH and ClO· radicals under biased conditions, and the role of each oxidative species was specifically quantified. In the enlarged scale study, water flow-by mode was tested with varying experimental parameters including flow rate, hydraulic residence time, and secondary oxidation. Furthermore, the performance of the 3D-EC system for the treatment of six types of practical wastewater with different levels of ammonia and organics was evaluated. This study provides mechanistic insight on the indirect 3D-EC oxidation of ammonia and its potential application on ammonia wastewater treatment.

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Electrochemical Transformations of Perfluoroalkyl Acid (PFAA) Precursors and PFAAs in Landfill Leachates

Cited by 15 publications

References 57 publications

PFAS-Contaminated Soil Site in Germany: Nontarget Screening before and after Direct TOP Assay by Kendrick Mass Defect and FindPFΔS

PFAS-Contaminated Soil Site in Germany: Nontarget Screening before and after Direct TOP Assay by Kendrick Mass Defect and FindPFΔS

Flow-Through Electrochemical Activation of Persulfate for Efficient Wastewater Treatment using Ti₄O₇ Reactive Electrochemical Membranes

Unveiling the Key Roles of Various Reactive Species for Ammonia Oxidation in an Efficient Three-Dimensional Electrocatalytic System and Enlarged Scale Study for the Treatment of Practical Wastewater

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Electrochemical Transformations of Perfluoroalkyl Acid (PFAA) Precursors and PFAAs in Landfill Leachates

Cited by 15 publications

References 57 publications

PFAS-Contaminated Soil Site in Germany: Nontarget Screening before and after Direct TOP Assay by Kendrick Mass Defect and FindPFΔS

PFAS-Contaminated Soil Site in Germany: Nontarget Screening before and after Direct TOP Assay by Kendrick Mass Defect and FindPFΔS

Flow-Through Electrochemical Activation of Persulfate for Efficient Wastewater Treatment using Ti4O7 Reactive Electrochemical Membranes

Unveiling the Key Roles of Various Reactive Species for Ammonia Oxidation in an Efficient Three-Dimensional Electrocatalytic System and Enlarged Scale Study for the Treatment of Practical Wastewater

Contact Info

Product

Resources

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Flow-Through Electrochemical Activation of Persulfate for Efficient Wastewater Treatment using Ti₄O₇ Reactive Electrochemical Membranes