Experimental research on atomization process and dust reduction performance of swirl pressure nozzle

In this study, experimental studies on atomization process and dust reduction performance of four swirl nozzles with different inlet/outlet diameter ratio (D) were performed. The results of the atomization process study of the nozzle show that with the increase of D, the droplet breakup range of the spray field is gradually increasing, but the droplet breakup intensity of the spray field is gradually decreasing. At D= 3.33 and 3.63, droplet breakup occurs mainly in the range of 0-4 mm in the strong turbulent region. At D= 3.75, droplet breakup occurs mainly in the range of 0-2 mm in the strong turbulent region. At D= 3.96, droplet breakup occurs mainly in the range of 0-1 mm in the strong turbulent region. Droplet breakup in the spray field at D = 3.33 and D= 3.67 was better than that at D= 3.75 and D = 3.96. From the dust reduction experimental results, the dust reduction efficiency increases and then decreases with the increase of D. The dust reduction efficiency is highest among the four nozzles at D= 3.67. Based on the dust reduction curves of four different D of nozzles, it is predicted that the optimal dust reduction condition will be achieved at D of 3.60, which provides a reference for the design and optimization of nozzles.

Automated summary

In this study, experimental research was conducted on the atomization process and dust reduction performance of four swirl nozzles with different inlet/outlet diameter ratios. The results showed that as the diameter ratio increased, the range of droplet breakup in the spray field increased while the intensity of droplet breakup decreased. The dust reduction efficiency increased and then decreased with the increase of the diameter ratio.