Parameter Optimization and Experimental Study of Jet Mixing Device Based on CFD

Abstract

The parameters of jet mixing devices have an important influence on the mixing process, particle movement and interface regulation. At present, jet mixing devices are widely used in the coal slime flotation field, and their variable parameters lack systematic optimization. In this paper, the performance of reagent mixing and the distribution characteristics of flow field are taken as the evaluation indexes, and computational fluid dynamics (CFD) software (FLUENT) is used to optimize the variable parameters of the device. The results show that when the area ratio Ar=1.96~3.24, the throat-nozzle distance Le=0.2Dh~0.6Dh, the suction tube is located 1/4~1/2 Lz to the left of the nozzle outlet and is symmetrically arranged, the length of the throat tube L is from 6Dz to 12Dz, the mixing performance of the jet mixing device was optimal. The flow field distribution characteristics showed that the area ratio has a more significant effect. The larger the area ratio is, the more favorable the mixing of the working fluid and the injection fluid is. The throat-nozzle distance has little effect on the flow field distribution, and its optimal value ranges from 0.3Dh to 0.6Dh. The fog droplet size test showed that the dispersion effect was the best when the area ratio Ar=3.24. The diameter size test of the injected bubbles was carried out to verify the performance of the jet mixing device after parameter optimization. The experimental results and the simulation results confirm each other, which proves the correctness of the numerical simulation results.