Effect of Nozzle Geometry on Centerline Gas Holdup in Submerged Gas Injection


Effect of Nozzle Geometry on Centerline Gas Holdup in Submerged Gas Injection

Xiao, J.; Yan, H.; Schubert, M.; Liu, L.; Döß, A.; Schleicher, E.; Hampel, U.

Non-circular nozzle geometries are widely used in many industrial processes with submerged gas injection for altering the centerline gas holdup to intensify the reaction process. However, the effect of the nozzle geometry on the centerline gas holdup is rarely investigated. In this work, hollow circular-shaped, gear-shaped, four-flower-shaped and multi-hole-shaped nozzle geometries are utilized to investigate the centerline gas holdup by wire-mesh sensors and
digital image processing. The results reveal that the centerline gas holdup is influenced by nozzle geometry, axial distance and gas flow rate. The centerline gas holdup for hollow circular-shaped,four-flower-shaped and multi-hole-shaped nozzles is larger than that of the gear-shaped nozzle.
The correlations for the centerline gas holdup are obtained based on modified Froude number Frm and dimensionless axial distance o via regression analysis. The correlations for hollow circular-shaped nozzle geometry obtained in this study are validated with experimental data
from this study and the literature.

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Publ.-Id: 33280