Abstract
Accurate predictions of flow patterns in liquid-liquid flow are critical to the successful design and operation of industrial and geo-energy systems where two liquids are jointly transported. Unfortunately, there is no unified flow pattern map, because all published maps are based on limited ranges of dimensional parameters. Dimensional analysis was performed on oil-water horizontal flows, to obtain some relevant dimensionless parameter groups (DPG) for constructing flow pattern maps (FPM). The following combinations of DPG were used: (i) the ratio of mixture Reynolds number to Eötvös number versus water fraction, (ii) the ratio of Weber number to Eötvös number versus water fraction, (iii) the mixture Froude number versus water fraction, (iv) the water Froude number versus oil Froude number, (v) the ratio of gravity force to viscous force versus water fraction. From twelve published experimental studies, 2696 data points were gathered and analysed covering a variety of flow patterns including stratified, stratified mixed, dispersed oil in water, dispersed water in oil, annular and slug flows. Based on the performed analysis, it was found that flow patterns could occupy more than one isolated region on the DPG-based flow pattern map. None of the combinations of DPG can mark out all the considered flow patterns, however, some combinations of DPG are particularly suitable for marking out the regions associated with some flow patterns.
Highlights
Due to their applicability in various process industries, horizontal liquid-liquid flows have been extensively studied
The density of oil experimented in all the cases is less than water density, and all the considered experimental works were performed in the horizontal orientation
There are several combinations of dimensionless groups that can be used for constructing a flow map and those considered in this work are: (i) the ratio of mixture Reynold number to Eötvös number (Rem /Eo) versus water fraction, (ii) the ratio of Weber number to Eötvös number (We/Eo) versus water fraction, (iii) the mixture
Summary
Due to their applicability in various process industries, horizontal liquid-liquid flows have been extensively studied. The flow pattern maps available for the liquid-liquid flow are limited to the conditions for which the flow maps were constructed [4]. The use of dimensionless groups to develop flow pattern maps would lead to a wider range of applicability [5]. This project focuses on the construction of flow pattern maps using various combinations of relevant dimensionless parameter groups to ensure wider usage in horizontal pipes
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