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PFAS Remediation by Commercially Available Pulsed Plasma Technology

Title:	PFAS Remediation by Commercially Available Pulsed Plasma Technology
Authors:	Stephen A. O. Olson; Neeraj S. Borker; Grant D. Frost; Henry Hatakka; Iakov Kornev; Stephen McNamara; Hattie L. Ring; David Buckley; Zhuonan Liu; Pyry Kupias; Simo Manninen; Petri Ajo; Katharine I. Hunter
Publication Year:	2025
Collection:	The University of Auckland: Figshare
Subject Terms:	Biochemistry; Microbiology; Ecology; Science Policy; Space Science; Environmental Sciences not elsewhere classified; Biological Sciences not elsewhere classified; Chemical Sciences not elsewhere classified; Physical Sciences not elsewhere classified; destructively remove per; treat water droplets; including gas composition; based process model; direct plasma contact; process conditions; gas medium; containing water; pulse frequency; polyfluoroalkyl substances; pfoa ); experimental results; energy efficiency; droplet source; discharge zone; discharge polarity; aqueous matrices
Description:	Technologies that destructively remove per- and polyfluoroalkyl substances (PFAS) from aqueous matrices are likely to be required for efficient and cost-effective PFAS remediation strategies. In this study, the commercially available Roxia Plasma Oxidizer (RPO) technology was evaluated for the treatment of PFAS-containing water. This technology uses pulsed corona discharge (PCD) in a gas medium to treat water droplets in direct plasma contact in the discharge zone. Process conditions, including gas composition, discharge polarity, temperature, droplet source, and pulse frequency, were tuned to improve PFAS removal efficiency. A diffusion-based process model was developed to interpret the experimental results. For long-chain PFAS (here, PFOS, PFOA), the energy efficiency of removal for this technology was measured to be 20–24 kWh/m 3 , which is comparable with other plasma-based PFAS remediation technologies.
Document Type:	article in journal/newspaper
Language:	unknown
Relation:	https://figshare.com/articles/journal_contribution/PFAS_Remediation_by_Commercially_Available_Pulsed_Plasma_Technology/29583345
DOI:	10.1021/acsestwater.4c01115.s001
Availability:	https://doi.org/10.1021/acsestwater.4c01115.s001; https://figshare.com/articles/journal_contribution/PFAS_Remediation_by_Commercially_Available_Pulsed_Plasma_Technology/29583345
Rights:	CC BY-NC 4.0
Accession Number:	edsbas.C45BC8A7
Database:	BASE