Study on simulation and aspirated-air type experiment of fresh tea leaf with air suction based on CFD-DEM coupling

In this study, a computational fluid dynamics and discrete element (CFD-DEM) coupling model for sorting fresh tea leaves by aspirated-air type was established, an experimental study of adsorption on bench was carried out, and computational fluid dynamics (fluent) was used to analyze the flow characteristics of two kinds of air-suction tea leaf models, The coupling model of CFD-DEM is established, the motion process of fresh tea leaves from being adsorbed by a porous turntable to moving and falling with the turntable was simulated, 3D printing technology was used to print the key parts of the air suction tea leaf sorting equipment, and the porous turntable adsorption test of air suction tea leaf sorting was carried out. The results show that the model with the falling guard device has no airflow at the hole of the porous turntable, and the gas field flow characteristics are stable, which can ensure the smooth falling of fresh tea leaves; The results of the bench test for the separation of fresh tea leaves by air suction are the same as those simulated by the established CFD-DEM coupling model, which indicates that the establishment of the CFD-DEM coupling model and the simulation parameters are reasonable, and the coupling model lays a foundation for the later optimization and design of the multi-scale air suction separation mechanism for tea particles.