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Anionic surfactant remediation of soil columns contaminated by nonaqueous phase liquids
Authors:V. Dwarakanath   K. Kostarelos   Gary A. Pope   Doug Shotts  William H. Wade  
Affiliation:a Duke Engineering Services, 9111 Research Boulevard, Austin, TX 78758, USA;b Department of Civil Engineering, The University of Texas at Austin, Austin, TX 78712, USA;c Department of Petroleum and Geosystems Engineering, The University of Texas at Austin, Austin, TX 78712, USA;d ARCO, 2300 West Plano Parkway, PRC-E1503, Plano, TX 75075, USA;e Department of Chemistry, The University of Texas at Austin, Austin, TX 78712, USA
Abstract:A variety of column experiments have been completed for the purpose of selecting and evaluating suitable surfactants for remediation of nonaqueous phase liquids (NAPLs). The various NAPLs tested in the laboratory experiments were tetrachloroethylene (PCE), trichloroethylene (TCE), jet fuel (JP4) and a dense nonaqueous phase liquid from a site at Hill Air Force Base, UT. Both Ottawa sand and Hill field soil were used in these experiments. Surfactant candidates were first screened using phase behavior experiments and only the best ones were selected for the subsequent column experiments. Surfactants which showed high contaminant solubilization, fast coalescence times, and the absence of liquid crystal phases and gels during the phase behavior experiments were tested in soil column experiments. The primary objective of the soil column experiments was to identify surfactants that recovered at least 99% of the contaminant. The secondary objective was to identify surfactants that show low adsorption and little or no loss of hydraulic conductivity during the column experiments. Results demonstrated that up to 99.9% of the contaminants were removed as a result of surfactant flooding of the soil columns. The addition of xanthan gum polymer to the surfactant solution was shown to increase remediation efficiency as a lower volume of surfactant was required for recovering a given volume of NAPL. Based on these experimental results, guidelines for designing highly efficient and robust surfactant floods have been developed and applied to a field demonstration.
Keywords:Groundwater   Microemulsion   Remediation   Surfactant   DNAPL   Contaminants
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