Impact of phosphate addition on PFAS treatment performance for drinking water

Haupert, L. M., Redding, A., Gray, J. M., Civardi, J., Datsov, B., Sanan, T. T., Mills, M. A., Speth, T. F., & Burkhardt, J. B. (2023). “Impact of phosphate addition on PFAS treatment performance for drinking water.” AWWA Water Science, e1361. https://doi.org/10.1002/aws2.1361 [open access]

Abstract

Adding new unit operations to drinking water treatment systems requires consideration of not only efficacy for its design purpose but also costs, water quality characteristics, impact on overall regulatory compliance, and impact of other treatment unit operations. Here, pilot study results for ion exchange (IX) and granular activated carbon (GAC) are presented for a utility with both per- and polyfluoroalkyl substances (PFAS) and volatile organic contaminant removal needs. Specifically, the impact of upstream air stripping and phosphate addition on PFAS treatment performance was evaluated. Modeling was used to fit the IX and GAC pilot data and predict performance under different scenarios. GAC performance was generally consistent for treating water before or after the air stripper, but the addition of phosphate prior to air-stripping resulted in a loss of 15%–25% capacity for some PFAS on IX media, demonstrating the need to consider the entire treatment train before implementing PFAS removal unit operations.