Abstract:In this paper, a supersonic gas atomizing nozzle is designed. Water is used instead of a metal melt to perform an atomization simulation experiment. A high-speed camera is used to capture the atomized flow field and analyze the images. The results show that the atomization and crushing process of water follows the secondary crushing theory. The water flow first generates disturbances, develops into waves and breaks into ligaments, and finally forms tiny droplets when secondary crushing occurs. In the shape and structure of the flow field, the atomization of water is consistent with the simulation results using Fluent; the experimental results under different parameters are similar to the results of computer simulation. The reliability of the computer simulation results is verified. To some extent, the computer simulation results can be used as a reference for industrial design.