Origin of regime transition to turbulent flow in bubble column: Orifice- and column-induced transitions

Abstract

The possible events during bubble formation on an orifice were investigated using a rectangular bubble column (30cm×30cm×100cm). The gas flow rate through a single orifice was adjusted from 0.1dm3/min to 5.0dm3/min covering a high flow rate regime. At the high gas flow rate, the bubble formation process was complicated by diverse events, such as wake effect, channeling, and orifice-induced turbulent flow. The detachment period could be used to discern the bubble formation steps because it was strongly affected by the above events. The bubble size distribution around the orifice was also analyzed to gain a clearer understanding of the bubble formation process. Above the rate of 3.0dm3/min through a single orifice, the detachment period converged to a value of 25ms irrespective of the orifice diameter. The bubble size distribution also showed little difference in this range of gas flow rate. This could be explained by the development of turbulent flow around the orifice. A 0.15m in-diameter bubble column was tested to investigate the effect of orifice-induced turbulent flow on the regime transition in which the homogeneous flow regime is converted into the heterogeneous flow regime in the column. Obvious distinction between the orifice- and column-induced transitions was observed.