Modeling <scp>PFAS</scp> Fate and Transport in Groundwater, with and Without Precursor Transformation
Michael J. Gefell, H.S. Huang, Dan Opdyke, Kyle Gustafson, D. Vlassopoulos, John E. McCray, Sam Best, Minna Carey
Abstract
Groundwater professionals require tools to evaluate a variety of technical issues related to per- and polyfluoroalkyl substances (PFAS). These include the potential impact of PFAS precursors on groundwater plumes of perfluoroalkyl acids (PFAAs). Numerical modeling results show that, by adjusting the mass loading rate, source zones with or without a precursor can produce similar PFAA plumes. However, if a precursor is present, it can impact PFAA plume concentrations and extend PFAA plume durations by decades. Additional research regarding in situ precursor transformation rates-and improvements in source area characterization-will further advance the predictive value of modeling.