The number of filling stations in Taiwan increased dramatically after the government lifted the ban on private ownership. However, the filling stations account for a large proportion of the soil and groundwater pollution sites. Most filling stations in Taiwan use soil vapor monitoring to monitor leakage of underground storage tanks and pipelines. Since the vapor pressure of diesel fuel is much lower than that of gasoline, diesel fuel leakage is more difficult to detect. As a result, the amount and extent of diesel fuel pollution could be more serious. On the other hand, the composition of diesel fuel is much more complicated than that of gasoline such that the assumption of its composition for multi-components simulation becomes more difficult. Therefore, almost all of numerical simulations of LNAPL leakage and remediation has been focused on gasoline. This study performed multi-component transport simulation of diesel fuel leakage and pumping by TMVOC to evaluate the effectiveness of monitoring. The results of simulation show that diesel fuel leakage in the unsaturated zone, gas monitoring will be better than groundwater monitoring. When leakage located on the below the groundwater, the gas and groundwater monitoring are difficult to detect diesel fuel contamination. The monitoring soil vapor and contaminants in groundwater is more effective in soil with higher permeability. While the grounswater table is low, the monitoring soil vapor and contaminants in groundwater is more effective in soil with higher the grounswater table. Diesel fuel pumping used has a higher removal rate in the soil with high permeability and porosity soil. Compared to the same in the case of gasoline contamination, the monitoring soil vapor can detect a certain degree of diesel or gasoline hydrocarbon concentration which set up at a distance of 3 m leak point range. Because gasoline volatility is high, the monitoring soil vapor will be reached standards earlier than diesel gas concentration.