Thermal decomposition of PFOA: Influence of reactor and reaction conditions on product formation

Weber, Nathan H.; Dixon, Lewis J.; Stockenhuber, Sebastian P.; Grimison, Charles C.; Lucas, John A.; Mackie, John C.; Stockenhuber, Michael; Kennedy, Eric M.

Title: Thermal decomposition of PFOA: Influence of reactor and reaction conditions on product formation
Creator: Weber, Nathan H.; Dixon, Lewis J.; Stockenhuber, Sebastian P.; Grimison, Charles C.; Lucas, John A.; Mackie, John C.; Stockenhuber, Michael; Kennedy, Eric M.
Relation: Chemical Engineering Science Vol. 278, no. 118924
Publisher Link: http://dx.doi.org/10.1016/j.ces.2023.118924
Publisher: Elsevier
Resource Type: journal article
Date: 2023
Description: The thermal decomposition of perfluorooctanoic acid (PFOA) was studied in an α-alumina flow reactor between 400 and 1000 °C. Experimental results indicate that the thermal decomposition of PFOA is initiated at 400 °C and that at temperatures below 600 °C, the primary products are perfluoroheptene (C7F14), CO2, and HF, together with minor amounts of perfluoroheptanoyl fluoride (C7F14O) and CO. These results contradict quantum chemical calculations that predict HF, CO, and C7F14O to be the major products formed via a lactone intermediate. Through quantum chemical calculations, we discovered that PFOA can be physisorbed onto an alumina nanocluster and can release C7F14 and CO2. Adding more α-alumina surface area confirmed a significant increase in CO2 concentration, supporting the postulate that an α-alumina surface impacts the thermal decomposition of PFOA. Temperatures above 600 °C were found to result in an increased yield of HF and CO and fluorocarbons.
Subject: PFAS; perfluorooctanoic acid (PFOA); thermal decomposition; flow reactor; α-alumina; chemical kinetics
Identifier: http://hdl.handle.net/1959.13/1499117
Identifier: uon:54618
Identifier: ISSN:0009-2509
Language: eng
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