Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
666736 | International Journal of Multiphase Flow | 2012 | 6 Pages |
It has been observed by many authors that for ascending bubbly flows, the gas fraction distributes radially in different manners. Depending on the flow conditions and channel characteristics, the bubbles may accumulate in the center of the pipe (core peak) or near the walls (wall peak). The radial distribution of gas fraction significantly affects the friction coefficient and the heat transfer. Therefore, it is important to be able to predict which distribution will appear under certain flow conditions. In this note, by analyzing a vast experimental data base, a criterion to identify the transition from core to wall peak is proposed. The transition occurs when both Reynolds and Weber numbers reach critical values (Rcrit = 1500, Wcrit = 8). This criterion is validated with our experimental results and with those found in the literature.
► A criterion is proposed to predict the radial gas fraction distribution in an upward bubbly pipe flow. ► Critical values of the Reynolds and Weber numbers are found for the transition from wall to core peak. ► The criterion was validated for many experimental conditions from several different authors.