To protect ground water from contamination, the Environmental Protection Administration of Taiwan had promulgated the Soil and Groundwater Pollution Remediation Law in 2000. Land use rights of contaminant sites are strictly restricted under this law. The land owners, thus, often ask engineers to complete remediation events within very short period. Multi-phase extraction (MPE) is a rapidly emerging in-situ remediation technology with good performance on recovery of LNAPL. However, the efficiency estimation of MPE has usually been bases on engineer experience. In this study, numerical simulations had been performed with TMVOC, in order to assess the influence of well location, well bottom pressure and porosity on the efficiency of MPE. A hypothesized aquifer of sandy soil had been assumed to receive gasoline from oil spill from tank farms and thus to be remediated with MPE. The results of simulation show that the extraction well placed 10 m downstream from spill point gives the best efficiency. Efficiency decreases as the extraction well was located away from that particular point, either upstream or downstream. Furthermore, the aquifer of which a higher porosity has been assumed shows a better efficiency than one with lower porosity. In addition, the efficiency of extraction exhibits a positive correlation with the difference between well bottom pressure and atmospheric pressure. Nevertheless, the benefit of high negative pressure is obvious only in the earlier few months after which the benefit decreases with time.