| | Field Implementation of a Winsor Type I Surfactant/Alcohol |
| | 0,15 | | MB | Mixture for in Situ Solubilization of a Complex LNAPL as a |
| | 8 | | stron | Single-Phase Microemulsion |
| | 6496 | | ID | College of Engineering, University of Florida |
| | 1998 | | rok |
| | A Winsor Type I surfactant/alcohol mixture was used as an in situ flushing agent to solubilize a |
| | multicomponent nonaqueous phase liquid (NAPL) as a single-phase microemulsion (SPME) in a |
| | hydraulically isolated test cell at Hill Air Force Base (AFB), Utah. The surfactant (polyoxyethylene( |
| | 10) oleyl ether) and alcohol (1-pentanol) together comprised 5.5 wt % of the flushing solution. The |
| | NAPL was extremely complex, containing more than 200 constituents and a ‘pitch’ fraction that was |
| | not solvent-extractable. The NAPL removal effectiveness of the SPME flood was evaluated using |
| | information from soil cores, partitioning tracer tests, and NAPL constituent breakthrough curves |
| | (BTCs) measured at three extraction wells. Soil core data indicated that approximately 90-95% of |
| | the most prevalent NAPL constituents were removed from the cell by the SPME flood. A |
| | comparison of pre- and postflushing partitioning tracer data indicated that about 72% of the |
| | measured NAPL volume was removed by the SPME flood. Integration of NAPL constituent BTCs |
| | indicated 55-75% removal of the target NAPL constituents when partitioning tracer data were used |
| | to estimate the initial amount of NAPL present and 60-175% removal of two target constituents |
| | when soil core data were used to estimate the amount of NAPL initially present. These results |
| | indicate that the SPME flood effectively removed the NAPL constituents of concern, but an |
| | insoluble anthropogenic residue was left behind. |