In recent years, the severe problem existing in Shihmen Reservoir is the flood with a lot of sediment and driftwood flow into the Reservoir. As the result, the most important thing is building sediment bypass tunnels and enhancing the function of reservoir on preventing drainage and silting. The research in sediment is flourish in Taiwan, but not particularly focuses on the area in pipe, tunnel, and sewer. This study is to explore sediment transport behaviour caused by the impact of solid boundary in different diameters and velocities. First, we establish a one-dimensional model combined with de Saint Venant equations and sediment transport equations in this study. This numerical model uses explicit finite volume method with WENO method to increase stability of the numerical solution. In this study, we use the test cases, the case of Banasiak and Verhoeven (2008), and the on-site case of Creaco and Bertrand - Krajewski (2009) simulating the drain in Lyon and Lacassagne, France, to verify and validate the model. Finally, the model applies the case of Aere Typhoon to simulate the sediment bypass tunnels in Shihmen Reservoir. From the result, we find that sediment transport in high velocity flow condition may wear and tear on the solid boundary instead of depositing. To model the study more accurate, we combine the Bitter theory and our model to analyze problems about wearing on the solid boundary.