Dorin Bogdan scite author profile

Information is needed on the concentration of per- and polyfluoroalkyl substances (PFAS) in foams on surface waters impacted by aqueous film-forming foam (AFFF). Nine pairs of foam and underlying bulk water were collected from a single freshwater lake impacted by PFAS and analyzed for PFAS by liquid chromatography quadrupole time-of-flight mass spectrometry (LC-QToF) and for dissolved organic carbon (DOC). The DOC of two foam:bulk water pairs was characterized by 1H NMR. Foams were comprised of 16 PFAS with concentrations as high as 97 000 ng/L (PFOS) along with longer-chain, more hydrophobic PFAS. Only five PFAS (PFOS and shorter chain lengths) were quantified in underlying bulk waters. Enrichment factors (foam:bulk water) ranged from 10 (PFHxA) up to 2830 (PFOS). Foams impacted by AFFF gave the greatest concentrations and number of PFAS classes with PFOS concentrations exceeding the EPA health advisory level (70 ng/L). PFAS concentrations were significantly below published critical micelle concentrations and constituted <0.1% of overall DOC concentrations in foam, indicating that PFAS are a minor fraction of DOC and that DOC likely plays a central role in foam formation. Estimates indicate that foam ingestion is a potentially important route of exposure for children and adults when they are in surface waters where foam is present.

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Technology review and evaluation of different chemical oxidation conditions on treatability of PFAS

Dombrowski¹,

Kakarla²,

Caldicott³

et al. 2018

Remediation Journal

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Per‐ and polyfluoroalkyl substances (PFAS) are a class of stable compounds widely used in diverse applications. These emerging contaminants have unique properties due to carbon–fluorine (C–F) bonds, which are some of the strongest bonds in chemistry. High energy is required to break C–F bonds, which results in this class of compounds being recalcitrant to many degradation processes. Many technologies studied that have shown treatment effectiveness for PFAS cannot be implemented in situ. Chemical oxidation is a demonstrated remediation technology for in situ treatment of a wide range of organic environmental contaminants. An overview of relevant literature is presented, summarizing the use of single or combined reagent chemical oxidation processes that offer insight into oxidation–reduction chemistries potentially capable of PFAS degradation. Based on the observations and results of these studies, bench‐scale treatability tests were designed and performed to establish optimal conditions for the formation of specific free radical species, including superoxide and sulfate radicals, via various combinations of oxidants, catalysts, pH buffers, and heat to assess PFAS treatment by chemical oxidants. The study also suggests the possible abiotic transformations of some PFAS when chemical oxidation is or was used for treatment of primary organic contaminants (e.g., petroleum or chlorinated organic compounds) at a site. The bench‐scale tests utilized field‐collected samples from a firefighter training area. Much of the available data related to chemical oxidation of PFAS has only been reported for one or both of the two more commonly discussed PFAS (perfluorooctane sulfonic acid and/or perfluorooctanoic acid). In contrast, this treatability study evaluates oxidation of a diverse list of PFAS analytes. The results of this study and published literature conclude that heat‐activated persulfate is the oxidation method with the best degradation of PFAS. Limited reduction of reported PFAS concentrations in this study was observed in many oxidation reactors; however, unknown mass of PFAS (such as precursors of perfluoroalkyl acids) that cannot be identified in a field collected sample complicated quantification of how much oxidative destruction of PFAS actually occurred.

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Deposition and release kinetics of nano-TiO2 in saturated porous media: Effects of solution ionic strength and surfactants

Godinez

Darnault

Khodadoust

et al. 2013

Environmental Pollution

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Perfluoroalkyl Substances in U.S. market basket fish and shellfish

Ruffle¹,

Vedagiri²,

Bogdan³

et al. 2020

Environmental Research

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Field Sampling Materials Unlikely Source of Contamination for Perfluoroalkyl and Polyfluoroalkyl Substances in Field Samples

Rodowa

Christie

Sedlak

et al. 2020

Environ. Sci. Technol. Lett.

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It is important that sample collection and shipping for monitoring perfluoroalkyl and polyfluoroalkyl substances (PFAS) in groundwater and soil do not contribute to PFAS concentrations in samples. Recommendations in state and federal PFAS sampling guidance documents are not supported by analytical data nor plausible pathways for exposure. Sixty-six materials were analyzed by liquid chromatography tandem mass spectrometry (LC-MS/MS) for 52 PFAS and total fluorine by particle-induced gamma-ray emission (PIGE) spectroscopy. Of the 22 materials with potential to come in direct contact with samples during sampling, none had quantifiable concentrations of routinely measured PFAS. Ten additional materials had quantifiable individual PFAS concentrations (<0.45–83 μg/m2), and 15 had total fluorine (8000 to >11,000,000 μg F/m). However, no plausible pathways for contaminating samples were detected. Estimates of the quantity of PFAS-containing materials required to reach the EPA health advisory limit (70 ng/L) for a 1 L water sample demonstrates the implausibility of actually contaminating samples. Strict limitations placed on field materials without plausible contact with field samples are not supported, and future efforts should focus only on materials that come in direct contact with field samples and have a plausible pathway for impacting the concentrations of PFAS to levels of concern.

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Dorin Bogdan

PFAS and Dissolved Organic Carbon Enrichment in Surface Water Foams on a Northern U.S. Freshwater Lake

Technology review and evaluation of different chemical oxidation conditions on treatability of PFAS

Deposition and release kinetics of nano-TiO2 in saturated porous media: Effects of solution ionic strength and surfactants

Perfluoroalkyl Substances in U.S. market basket fish and shellfish

Field Sampling Materials Unlikely Source of Contamination for Perfluoroalkyl and Polyfluoroalkyl Substances in Field Samples

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