Modelling Competitive Sorption of Per- and Polyfluoroalkyl Substances (PFASs) to Soil and Sorbents

Sammanfattning: Per- and polyfluoroalkyl substances (PFASs) have become contaminants of increasing concern to society due to the contamination of drinking water and the ecosystem. A better understanding of the sorption and transport of PFASs in soil systems is urgently needed, however there have been few studies dedicated to investigating competitive sorption among PFASs, and there is no available model to model such effects. This study investigated the sorption behaviour of PFASs of different carbon chain lengths and different functional groups to investigate potential competitive sorption effects. A multi-compound sorption model was set up based on Langmuir single sorption isotherms. By modelling the different PFASs both separately and mixed together in bi-solute and multi-solute systems, the possibility of modelling competition effects between different PFASs for sorption sites was investigated. The model could describe the general tendency of longer chained PFASs to outcompete shorter chained PFASs, and that perfluorinated sulfonic acids (PFSAs) outcompete perfluorinated carboxylic aids (PFCAs). However, the model failed to reproduce multi-solute sorption results for PFOS at concentrations near or above the critical micelle concentration (CMC), indicating micelle formation and multilayer sorption, which cannot be described by a Langmuir isotherm-based model. The study showed that it is possible to model competitive effects among some PFASs using this approach, although more advanced models may be needed to model the sorption of long-chained PFASs where micelle formation may occur, which would require further research to derive values for the parameters necessary to perform this type of modelling.