Processes & Considerations for Setting State PFAS Standards
By Sarah Grace Longsworth and ECOS PFAS Caucus
ECOS
April 29, 2021
PFAS are a group of synthetic chemicals used in a wide array of consumer and industrial products since the 1940s. Several decades later, publicly available studies on certain PFAS risks indicated potential human health concerns related to these chemicals. In 2000, 3M announced a voluntary phase-out of certain legacy PFAS (e.g., perfluorooctanoic acid [PFOA], perfluorooctane sulfonate [PFOS], perfluorohexane sulfonic acid [PFHxS]). In 2006, the U.S. Environmental Protection Agency (EPA) initiated the PFOA Stewardship Program, which encouraged eight major chemical manufacturers to eliminate the use of PFOA and similar long-chain3 PFAS in their products and in the emissions from their facilities.4 International signatories of the United Nations’ Stockholm Convention on Persistent Organic Pollutants treaty voted in 2009 and 2020 to add PFOS and PFOA, respectively, to the list of substances to be eliminated.5 In 2020, the EPA issued a rule under the Toxic Substances Control Act (TSCA) prohibiting the manufacturing, processing, and/or importing of products containing certain PFAS without prior agency review and approval. Despite these actions, U.S. manufacturers can with approval still import PFOA, PFOS, and PFHxS for use in consumer goods, and some U.S. sites are legally required to keep PFAS-containing firefighting foams on-site for emergencies. U.S. manufacturers have developed numerous PFAS to replace long-chain PFAS such as PFOA, PFOS, and perfluorononoanic acid (PFNA). One example is hexafluoropropylene oxide dimer acid (HFPO-DA) and the HFPO-DA ammonium salt, the two chemical substances that are part of the GenX technology developed by Chemours (formerly DuPont), that were developed as a PFOA replacement. These replacement chemicals are part of the larger suite of nearly 5,0006 PFAS, some of which the EPA has approved for manufacture and use in the U.S. This is a problem on many fronts: PFAS do not break down or, in the case of PFAS that are precursors7, are converted to terminal PFAS that do not break down, and are very hard to remove and/or destroy with treatment. Therefore, there is a persistent “supply” of PFAS in the environment that maintain their carbon-fluorine chemical structures and potential toxicity, in contrast to many other organic compounds. In addition, regulators currently lack routinely available analytical methods for PFAS detection and measurement across most environmental media and have little, if any, toxicological data for the majority of PFAS (especially the precursors) to define risks to human and ecological receptors.
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