Urban flooding caused by the exceeded capacity of the urban drainage system could result from the short-term heavy rainfall events, which is the most important impact of climate change on urban drainage systems. An urban drainage system is generally defined as a runoff collection and transportation system, which is responsible for quickly removing stormwater runoff to storm drains and sewers from urban areas to prevent any flooding. In fact, clogging and blocking of urban drainage system due to the accumulation of garbage, fallen leaves or sediment is a common occurrence in urban area. In these cases, clogging and blockage effect should be considered as a reduction in terms of hydraulic efficiency. In this research, a new urban flooding simulation model that couples the two-dimensional rapid overland flow model (National Taiwan University Cellular Automata Flood Inundation Model, NTU-CAFIM) with the one-dimensional storm sewer model (Storm Water Management Model, SWMM) is adopted. This research also proposes a novel dynamic flow interaction method that considers not only the drainage effect of surface runoff to road storm drains but also the limited capacity of pipes connecting gutters and sewer system. Four scenarios are designed to evaluate the effects of clogging road storm drains and blocking sewer pipes on flood inundation simulation, i.e., (1) no clogging inlets and no blocking sewer pipes, (2) clogging inlets only, (3) blocking sewer pipes only, (4) clogging inlets and blocking sewer pipes. The clogging factors of clogging inlets locating near trees are all set as 20%. The method to translate the sediment deposition into the urban storm sewer system to simulate the blockage effect is also introduced. For analyzing the modelling result, three indicators are used, included Nash-Sutcliffe efficiency coefficient (NSE) for evaluating the sewer water level; both Accuracy (ACC) and Probability of Detection (POD) for evaluating the surface flooding areas. This study selects the area between Yuanshan and Tatung district as the research area, and three historical rainfall events are used to evaluate the scenarios mentioned above. In all the scenarios, the best flooding simulation result is inlets with clogging factor 20% around the trees and the sediment deposition in the pipes tend to be deposited.