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Perfluoroalkyl and Polyfluoroalkyl Substances (PFAS) are mobile in the subsurface and highly resistant to natural degradation processes, therefore soil source areas can be ongoing sources of groundwater contamination. Soil standards issued for protection of groundwater are in the single digit part per billion range. Well developed soil treatment technologies are limited to capping and excavation with incineration or disposal. Soil stabilization with sorptive amendments and soil washing have been applied at limited locations. At present, no in situ destructive soil treatment technologies have been demonstrated at full scale.

Excavation and off-site disposal or treatment of PFAS-impacted soils may be acceptable for small quantities of soil. Disposal in non-hazardous landfills is allowable in most states. However, some landfill operators are choosing to restrict acceptance of PFAS-containing waste and soils as a protection against future liability. Various amendments have been manufactured to sorb PFAS to reduce leaching from soil. Although this is a non-destructive approach, stabilization can reduce mass flux from a source area or allow soils to be placed in landfills with reduced potential for leaching. Amendments sorb PFAS through hydrophobic and electrostatic interactions and are applied to soil through in situ soil mixing or ex situ stabilization. Incineration is a well-developed technology for organics destruction, including PFAS-impacted soils. Incineration is generally defined as high temperature (>1,100°C) thermal destruction of waste, and PFAS are thought to mineralize at high temperatures. Generally, incinerators treat off-gasses by thermal oxidation with temperatures as high as 1,400°C, and vaporized combustion products can be captured using condensation and wet scrubbing.

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