A large-scale rainfall simulator with maximum rainfall intensity of 250 mm/h, with dimensions of 30 m long, 30 m wide and 12 m high is developed in this study. The simulator has fan-shaped spray nozzle as a KJ-V type nozzle to create uniform rainfall across the test plot. The rectangular spray box opening is established under the nozzle to cut off the spray for the desired spray area with size of 76 cm long and 67 cm wide. Rainfall intensity and spray frequency are controled by rotation speed of nozzle and delay time when spray is cut off because nozzle is stay in spray box. The flow discharge and spatial distribution of simulated rainfall are measured with changing variables such as pump pressure, rotation speed of nozzle and delay time to evaluate the rainfall simulator. The results show that pump pressure is relative to rainfall intensity and higher pump pressure than 0.9 kg/㎠ is needed to provide a very close resemblance of natural rainfall. The spatial distribution of simulated rainfall is satisfactory and the Christiansen Coefficient of Uniformity (CuC) ranged from 75.8 to 83.0% can be obtained using 100 ㎡ plot area. The developed large-scale rainfall simulator can be used for the urban flood risk reduction research.