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Journal of the Air & Waste Management Association Volume 72, 2022 - Issue 3
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Technical Papers

Combustion of C1 and C2 PFAS: Kinetic modeling and experiments

Jonathan D. Kruga U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Air Methods and Characterization Division, RTP, North Carolina, USACorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-7045-7650
ORCID Icon,
Paul M. Lemieuxb U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Solutions and Emergency Response, Homeland Security and Materials Management Division, RTP, North Carolina, USAORCID Iconhttps://orcid.org/0000-0001-6408-3368
ORCID Icon,
Chun-Wai Leea U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Air Methods and Characterization Division, RTP, North Carolina, USA
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Jeffrey V. Ryana U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Air Methods and Characterization Division, RTP, North Carolina, USA
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Peter H. Karihera U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Air Methods and Characterization Division, RTP, North Carolina, USA
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Erin P. Shieldsa U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Air Methods and Characterization Division, RTP, North Carolina, USAORCID Iconhttps://orcid.org/0000-0002-9335-1074
ORCID Icon,
Lindsay C. Wickershama U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Air Methods and Characterization Division, RTP, North Carolina, USAORCID Iconhttps://orcid.org/0000-0002-4468-119X
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Martin K. Denisonc Reaction Engineering International, Salt Lake City, Utah, USA
,
Kevin A. Davisc Reaction Engineering International, Salt Lake City, Utah, USA
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David A. Swensenc Reaction Engineering International, Salt Lake City, Utah, USA
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R. Preston Burnetted Jacobs Technology Inc., Research Laboratory Support Team, Cary, North Carolina, USA
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Jost O.L. Wendtc Reaction Engineering International, Salt Lake City, Utah, USA;e Department of Chemical Engineering, University of Utah, Salt Lake City, Utah, USA
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William P. Linaka U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Air Methods and Characterization Division, RTP, North Carolina, USAORCID Iconhttps://orcid.org/0000-0002-2611-5880
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Pages 256-270 | Received 14 Sep 2021, Accepted 15 Dec 2021, Published online: 11 Feb 2022

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Read on this site (1)

Erin P. Shields & M. Ariel Geer Wallace. (2023) Low temperature destruction of gas-phase per- and polyfluoroalkyl substances using an alumina-based catalyst. Journal of the Air & Waste Management Association 73:7, pages 525-532.
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Articles from other publishers (9)

Junli Wang, Mingrui Song, Ibrahim Abusallout & David Hanigan. (2023) Thermal Decomposition of Two Gaseous Perfluorocarboxylic Acids: Products and Mechanisms. Environmental Science & Technology 57:15, pages 6179-6187.
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Debra R. Reinhart, Stephanie C. BolyardJiannan Chen. (2023) Fate of Per- and Polyfluoroalkyl Substances in Postconsumer Products during Waste Management. Journal of Environmental Engineering 149:4.
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Siddha Sharma, Kento Abeywardane & C. Franklin Goldsmith. (2023) Theory-Based Mechanism for Fluoromethane Combustion I: Thermochemistry and Abstraction Reactions. The Journal of Physical Chemistry A 127:6, pages 1499-1511.
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Linda G. T. Gaines, Gabriel Sinclair & Antony J. Williams. (2023) A proposed approach to defining per‐ and polyfluoroalkyl substances (PFAS) based on molecular structure and formula. Integrated Environmental Assessment and Management.
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Nathan H. Weber, Cameron S. Delva, Sebastian P. StockenhuberCharles C. Grimison, John A. Lucas, John C. Mackie, Michael Stockenhuber & Eric M. Kennedy. (2023) Thermal Mineralization of Perfluorooctanesulfonic Acid (PFOS) to HF, CO 2 , and SO 2 . Industrial & Engineering Chemistry Research 62:2, pages 881-892.
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Jianhua Zhang, Li Gao, David Bergmann, Tamara Bulatovic, Aravind Surapaneni & Stephen Gray. (2023) Review of influence of critical operation conditions on by-product/intermediate formation during thermal destruction of PFAS in solid/biosolids. Science of The Total Environment 854, pages 158796.
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Nathan H. Weber, Cameron S. Delva, Sebastian P. StockenhuberCharles C. Grimison, John A. Lucas, John C. Mackie, Michael Stockenhuber & Eric M. Kennedy. (2022) Thermal Decomposition of Perfluorooctanesulfonic Acid (PFOS) in the Presence of Water Vapor. Industrial & Engineering Chemistry Research 61:41, pages 15146-15155.
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Suman Das & Avner Ronen. (2022) A Review on Removal and Destruction of Per- and Polyfluoroalkyl Substances (PFAS) by Novel Membranes. Membranes 12:7, pages 662.
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Nathan H. Weber, Sebastian P. Stockenhuber, Cameron S. Delva, Ammar Abu Fara, Charles C. Grimison, John A. Lucas, John C. Mackie, Michael Stockenhuber & Eric M. Kennedy. (2021) Kinetics of Decomposition of PFOS Relevant to Thermal Desorption Remediation of Soils. Industrial & Engineering Chemistry Research 60:25, pages 9080-9087.
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