Abstract: The present disclosure provides for devices, systems, and methods of separating PFAS compounds from wastewater leachate. After separation, the PFAS compounds can be rendered less harmful. The present disclosure provides for devices, systems, and methods that uses aeration-induced foaming to isolate PFAS from landfill leachate into a concentrated, volume reduced liquid (coalesced foam), which can be separated and treated.

Abstract: Embodiments of the present invention provide a sediment bed passive flux meter (SBPFM) and associated methods. In one embodiment, an SBPFM is provided. The SBPFM comprises a casing. The casing comprises an intake portion, an exhaust portion, and an intermediate portion between the intake and exhaust portions. The SBPFM further comprises a permeable sock positioned within the intermediate portion of the casing and a sorptive matrix positioned within the sock. The sorptive matrix is impregnated with one or more tracers. The SBPFM is configured to passively intercept, but not retain, groundwater flow passing through the SBPFM from the intake portion to the exhaust portion.

Abstract: Embodiments of the present invention provide a sediment bed passive flux meter (SBPFM) and associated methods. In one embodiment, an SBPFM is provided. The SBPFM comprises a casing. The casing comprises an intake portion, an exhaust portion, and an intermediate portion between the intake and exhaust portions. The SBPFM further comprises a permeable sock positioned within the intermediate portion of the casing and a sorptive matrix positioned within the sock. The sorptive matrix is impregnated with one or more tracers. The SBPFM is configured to passively intercept, but not retain, groundwater flow passing through the SBPFM from the intake portion to the exhaust portion.

Abstract: An improved method and apparatus for simultaneously monitoring the magnitudes and directions of fluid fluxes and dissolved contaminants fluxes of a general flow system in both simply and multiply screened monitoring wells as well as unscreened boreholes is provided. Also, parameters such as fracture locations, separations, inclinations, orientations of inclination and apertures in a fracture flow system can be estimated. The invention comprises the use of a sorbent layer containing an insoluble sorbent matrix that retains dissolved contaminants, which is attached to an impermeable flexible liner. The matrix may also contain visible or invisible tracers that can be displaced by the fluid flow. The monitoring comprises placing devices in contact with the contaminated flow over certain intervals, thereby allowing contaminants to be sorbed to the sorbing matrix of the layer. Sufficient time is allowed for the contaminant concentrations in the flow field to reach equilibrium.

Abstract: This invention relates generally to methods of measuring interfacial areas, and more specifically to flow-based methods for measuring the area of the interfaces between two immiscible fluids. The immiscible fluids of interest are various oils and gases that do not have significant solubility, and thus form a distinct fluid phase and exist as agglomerations of varying sizes of blobs or ganglia when added to aqueous solutions. Our invention permits the measurement of such fluid-fluid interface areas for two immiscible fluids present in flow systems. The flow-based method involves the introduction of an interfacial tracer chemical into the flow system in one of two modes: (1) step input, and (2) pulse input. The tracer is soluble to appreciable extent in only one of the two fluids, designated as the carrier fluid phase.