Typhoon Morakot dropped heavy rain in southern Taiwan in 2009, and Pu-Tun-Pu-Nas River carried a large amount of sand into the Laonong River. The resulting debris flow is restricted by the canyons on both sides and the opposite wall, forming a confined debris fan.In order to understand and simulate the accumulation of this area, we used unmanned aerial vehicles combined with traverse survey to investigate the topography changes of Pu-Tun-Pu-Nas debris fan. Then using the model established by the local data (Huang, Chien-Lin, 2014). There are three different situations be simulated. First, the experiment is only debris fans to deposit in tributary channels, and the mainstream channel is assumed to be horizontal. The relationship between the apex and the volume of the alluvial fan will be discussed. Second, the channel of tributary supply water and the mainstream channel is assumed to be horizontal. Third, the tributaries and the mainstream occurred and mainstream channel is not horizontal (Huang, Chien-Lin, 2014). Using the theory of angles of deposit to fit the first situation, then compare the results of situation two and three with the field. The results show that the proportion of water and solid is very sensitive to the angle of deposit. We successfully used theory to simulate the aggradation of confined debris fans. Through experiment, we understand that whether it is the mainstream or the tributary, they play an important role in the appearance of the debris fan.