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Experimental and numerical study on the flow characteristics of slug flow in a horizontal elbow

•Phase distribution of gas-liquid two-phase slug flow at the elbow was clarified.•Effects of elbow on flow characteristics at slug flow were analyzed.•A CFD simulation method for slug flow at the elbow was presented. Elbow is one of the most accident-prone locations in multiphase flow lines, and und...

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Published in:Journal of Pipeline Science and Engineering 2022-12, Vol.2 (4), p.100076, Article 100076
Main Authors: Cao, Xuewen, Zhang, Pan, Li, Xiang, Li, Zheng, Zhang, Qianrong, Bian, Jiang
Format: Article
Language:English
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Summary:•Phase distribution of gas-liquid two-phase slug flow at the elbow was clarified.•Effects of elbow on flow characteristics at slug flow were analyzed.•A CFD simulation method for slug flow at the elbow was presented. Elbow is one of the most accident-prone locations in multiphase flow lines, and understanding the flow field is the key to manage the risk. In the meantime, the flow characteristics of slug flow are most complicated in the flow field. To clarify the flow characteristics of slug flow at the elbow, the influence and mechanism of the elbow on the flow characteristics of slug flow under different superficial gas-liquid velocities were studied with experiments and numerical simulations. A set of transparent loops with gas-liquid two phase flow was built. High-speed camera, pressure sensor, Doppler velocimeter and wire mesh sensor were used to collect flow pattern, pressure, slug velocity and gas-liquid distribution characteristics. In the meantime, the multi-fluid volume of fluid (VOF) model was used in the CFD simulations, and the simulation results were compared against the experimental results for verification. The results showed that the void fraction is highest at the inlet and lowest at the middle position, and the pressure and flow velocity at the extrados were higher than those at the intrados of the elbow. With the increase of the superficial liquid velocity and gas velocity, the number of bubbles accumulated inside the horizontal elbow increased, the slug flow liquid film velocity of the horizontal elbow increased, and the secondary flow phenomenon weakened.
ISSN:2667-1433
2667-1433
DOI:10.1016/j.jpse.2022.100076