The sewershed delineation is usually done by the modeler based on the study area data to determine the number, area size, and flow direction of subcatchments. The delineation method will have distinct results due to different modelers, which will have an influence on the sewershed runoff estimation. The purpose of this study was to examine the influence of sewershed delineation on runoff. Firstly, use SWMM to construct two scenario numerical test models to simulate changing the flow direction of a single subcatchment, and all subcatchments outlet junctions move forward a pipe length under different rainfall conditions. By comparing the discharge hydrograph,the error of peak discharge, and the error of time to peak, it can help to understand the influence of the two scenarios on outflow. The results show that the error of time to peak or the error of peak discharge is more than 5%, mainly arise in the rainfall duration is 10 minutes, the maximum rainfall intensity is 60mm/hr, 120mm/hr, and 240mm/hr. The results demonstrate that the delineation of sewershed has a greater impact on the outflow under short-duration rainfall condition. Finally, constructing three scenarios with three methods of delineation in a case study on the watershed of FUYUAN: the subcatchments are delineated according to the outline of the street, the outlet junction of the subcatchment is the corner manhole, and the subcatchments are delineated according to the flow direction. For the three scenarios, simulate 6-hour duration quantitative precipitation of 350 mm, 24-hour duration quantitative precipitation of 650 mm, 0908 extremely heavy rain, 0525 heavy rain, and 0627 rain event. Comparing the outflow between different scenarios, the error of time to peak and the error of peak discharge are both less than 5%, which fit the results of the numerical test model. It shows that the influence of sewershed delineation on the outflow can be accepted under the long-duration rainfall condition. Key words: sewershed, methods of delineation, the error of peak discharge, the error of time to peak, discharge hydrograph, SWMM