The removal of VOCs from aqueous solutions via pervaporation is an established technology that has been successfully demonstrated at the full scale. The purpose of this research was to measure the effect of an anionic surfactant (DOWFAX 8390) on pervaporation system performance and mass transfer of 1.1.1 trichloroethane (TCA) and toluene. This aqueous surfactant application of pervaporation targets the recovery and reuse of surfactant from SEAR (surfactant enhanced aquifer remediation) process fluids. In this Study. a pilot scale pervaporation unit with 4 spiral wound modules was used to conduct 75 eight hour runs. Process variables included temperature (30, 40. 50, 60 degreesC), permeate pressure (15, 25. 55 Torr), flow rate (0.25-2.0 gpm). and VOC feed concentration (17-265 mg/l TCA and 5-200 mg/l toluene). Surfactant addition reduced the removal of VOCs 0.7-29% depending on the system flowrate, feed temperature, and VOC. The reduced VOC flux resulting from the addition of surfactant was found to be attributed to an increase in the liquid viscosity due to the addition of the surfactant (10-13%, increase) and partitioning of the VOC into the surfactant micellar phase (63-68%, of TCA and 73-78%, of toluene was in micellar form) under experimental conditions. Though the addition of surfactant causes a decrease in the VOC removal efficiency, this study demonstrates that pervaporation can be used to remove VOCs from surfactant solutions without affecting the surfactant. permitting surfactant recycle.