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Description: Treatability Studies for PFAS Treatment: Evaluation and Optimization
Treatability Studies for PFAS Treatment: Evaluation and Optimization
Abstract
Treatability studies were performed to evaluate the effectiveness of various technologies to treat per- and polyfluoroalkyl substances (PFAS) present in groundwater at a former industrial site in Michigan. Previous studies (Jenkins et al., 2019) evaluated studies that tested passive treatment media such as granular activated carbon (GAC), anion exchange resin (AIX), and Rembind for adsorption capabilities in order to estimate total installed and operating costs as part of an overall treatment alternatives analysis and cost-effective assessment. The current study evaluates the effectiveness of utilizing alkaline ozonation for PFAS treatment in the same industrial groundwater water while monitoring degradation products.
Treatability studies were performed to evaluate the effectiveness of various technologies to treat per- and polyfluoroalkyl substances (PFAS) present in groundwater at a former industrial site in Michigan. Previous studies (Jenkins et al., 2019) evaluated studies that tested passive treatment media such as granular activated carbon (GAC), anion exchange resin (AIX), and Rembind for adsorption capabilities in order to estimate total installed and operating costs as part of an overall treatment alternatives analysis and cost-effective assessment. The current study evaluates the effectiveness of utilizing alkaline ozonation for PFAS treatment in the same industrial groundwater water while monitoring degradation products.
SpeakerThomas, Ryan
Presentation time
16:25:00
16:45:00
Session time
16:00:00
17:30:00
SessionNot Forever Chemicals! We Can Get Rid of PFAS
Session number119
TopicMicroconstituents
TopicMicroconstituents
Author(s)
Ryan Thomas
Author(s)R. Thomas1; K. Jenkins2; B. Landale3;
Author affiliation(s)GHD Innovative Technology Group, Niagara Falls, NY1GHD, Duluth, GA2GHD, Farmington Hills, MI3
SourceProceedings of the Water Environment Federation
Document typeConference Paper
PublisherWater Environment Federation
Print publication date Oct 2021
DOI10.2175/193864718825158008
Volume / Issue
Content sourceWEFTEC
Copyright2021
Word count9

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