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SURFACTANT ENHANCED REMEDIATION OF SOIL COLUMNS CONTAMINATED BY RESIDUAL TETRACHLOROETHYLENE
Citation:
Pennell, K., L. Abriola, M. Jin, AND G. Pope. SURFACTANT ENHANCED REMEDIATION OF SOIL COLUMNS CONTAMINATED BY RESIDUAL TETRACHLOROETHYLENE. U.S. Environmental Protection Agency, Washington, D.C., EPA/600/J-94/487.
Description:
The ability of aqueous surfactant solutions to recover tetrachloroethylene (PCE) entrapped in Ottawa and was evaluated in four column experiments. esidual PCE was emplaced by injecting 14 C-labeled PCE into water-saturated soil columns and displacing the free product with water. iscible displacement experiments were conducted before and after PCE entrapment to determine the influence of residual PCE on column dispersivities. he first two column studies involved the injection of a 4% solution of polyoxyethylene (POE) (20) sorbitan monooleate, resulting in the removal of 90% and 97% of the residual PCE from 2030- nd 40-120-mesh Ottawa sand, respectively. lthough micellar solubilization of PCE was the primary mode of recovery in these experiments, this process was shown to be rate-limited based on: (a) the disparity between initial steady-state concentrations of PCE in the column effluent and equilibrium values measured in batch experiments; and (b) the increase in effluent concentrations of PCE following periods of flow interruption. n the latter two experiments, surfactant solutions containing mixtures of sodium sulfosuccinates removed > 99% of the residual PCE from soil columns packed with 40-270-mesh Ottawa sand. pproximately 80% of the PCE was mobilized as a separate organic liquid after flushing with < 100 ML of these surfactant solutions. his study demonstrates the capacity of surfactant flushing to enhance the recovery of residual PCE from Ottawa sand and indicates that ultra-low interfacial tensions (< 0.001 dyn cm-1) are not required to achieve significant PCE mobilization when buoyancy forces arc important. he potential for displacement of dense nonaqueous-phase liquids as a separate organic phase should, therefore, be evaluated during the selection of surfactant formulations for aquifer remediation.