Reservoir desilting operation and management strategies can be classified into four parts: water and soil conservation, reservoir sedimentation reduction, reservoir capacity restoration, and adjustment strategies. Among them, the outflow discharges from the reservoir and the restoration of the reservoir capacity are primarily based on hydraulic desiltation and mechanical dredging. The application of turbidity current venting in hydraulic desilation is commonly-used in the field cases, especially the reservoir water is valuable. In this study, the venting efficiency of the desilting tunnel has been investigated through various design guiding channels in the Zengwen Reservoir. In the guiding channel dredged in different sizes in front of the desilting tunnel, the turbidity current may travel along the guiding channel and reaches the dam. This study uses the numerical model, 2DLAM, as a tool to simulate the migration of turbidity current in the Zengwen Reservoir. Based on the data from five historical typhoon events, outflow sediment concentrations are simulated and compared with the measured data obtained from the physical model as well as the field. In addition, several empirical formulas have been quoted to estimate the outflow sediment concentration at various outlets. In the Zengwen Reservoir, the simulated sediment concentration at the intake of each outlet has been used as a reference for estimation of the outflow sediment concentration. According to the simulated results, the length and width of the guiding channel can affect the venting efficiency of the desilting tunnel. However, the changes in the reservoir water level and the depth of the guiding channel have little effects on venting efficiency. When inflow discharges increase and larger than that of the outflow design discharge, part of the outflow discharge will pass through the spillway and the reduction of the venting efficiency at desilting tunnel of the tunnel can be observed.