Chemical Engineering Science, Vol.61, No.19, 6261-6272, 2006
The split of vertical two-phase flow at a small diameter T-junction
Measurements and observations of the phase split occurring at a small diameter vertical T-junction are reported. Time varying, void fraction data obtained using ring-type conductance probes have been analysed to yield valuable information regarding the effect of the junction on flow behaviour. It is shown through comparisons with the work of Stacey et al. [2000. The split of annular two-phase flow at a small diameter T-junction. International Journal of Multiphase Flow 26, 845-856] in a horizontal T-junction of a similar size that the orientation of the junction has no influence on the flow split. This behaviour is attributed to the absence of flooding and is corroborated by our high-speed images. Subsequently, better prediction of the phase split is obtained when the model of Azzopardi [1988. Measurements and observations of the split of annular flow at a vertical T-junction. International Journal of Multiphase Flow 14, 701-710] is modified to account for the absence of flooding. Regarding flow transitions, the methods by Barnea et al. [1983. Flow pattern in horizontal and vertical two-phase flow in small diameter pipes. The Canadian Journal of Chemical Engineering 61, 617-620] and Omebere-Iyari et al. [2005. Flow patterns for gas/liquid flow in small diameter tubes. Ninth UK National Heat Transfer Conference, Manchester, UK, 5-6 September] are found to give good predictions of the exit flow patterns in the horizontal side arm and vertical run arm, respectively. (c) 2006 Elsevier Ltd. All rights reserved.