Studies Track PFAS Through Wastewater Facilities

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This article was featured in a recent edition of Innovations for Small Systems, our monthly water technology newsletter.

University of New Hampshire (UNH) researchers have conducted two of the first studies in New England to show that per- and polyfluoroalkyl substances (PFAS) are ending up in the environment differently after being processed through wastewater treatment facilities, making it more challenging to set acceptable screening levels.

Researchers including Paula Mouser, associate professor of civil and environment engineering at UNH, aimed to highlight the gaps around contaminants of emerging concerns (CECs) in wastewater residuals and to stress that more research is needed to assess the impact of facility design and operation on the treatment of CECs before costly upgrades are implemented to comply with stricter drinking water standards. 

The first study, which was recently published in The Royal Society of Chemistry, investigated the distribution and fate of 24 different PFAS through six New Hampshire wastewater treatment facilities to examine how they are distributed after being treated. The study aimed to characterize PFAS in wastewater treatment influent, sludge, and effluent discharging into the Great Bay Estuary in southeastern New Hampshire. 

The second study, which was featured in the New England Water Environment Association Journal, evaluated the changes in 24 PFAS and 21 pharmaceutical and personal care products (PPCPs) during wastewater treatment and assessed the composition of PFAS in biosolids post-stabilization treatment. Recent studies have suggested PPCPs and PFAS from land-applied biosolids may accumulate in soils, agricultural crops, and food products. This study compares the composition and concentration of PFAS from 39 biosolid samples collected from WWTFs in New Hampshire and Vermont.

Photo Credit: Conservation Law Foundation


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