Measurement of thickness and analysis on flow characteristics of upper swirling liquid film in gas-liquid cylindrical cyclone

Wang Ya-An; Chen Jian-Yi; Yue Ti; Yang Yang; Han Ming-Shan; Yan Chao-Yu

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Measurement of thickness and analysis on flow characteristics of upper swirling liquid film in gas-liquid cylindrical cyclone

机译：气液圆柱旋风内上旋转液膜流动特性的厚度分析

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The gas-liquid cylindrical cyclone (GLCC) is a device used to separate gas from liquid in offshore or subsea oil and gas production systems. The liquid film swirling along the upper cylinder wall in the GLCC is referred to as "upper swirling liquid film" (USLF). The flow patterns of USLF have a great influence on GLCC's separation performance. However, the dynamics of the gas-liquid flow in a GLCC, especially the USLF characteristics, have not been well understood. In this study, experiments were conducted to investigate flow characteristics of USLF in a GLCC. The range of gas and liquid Reynolds numbers, Re-g and Re-l, was 27,869 <= Re- (g) <= 68,120 and 2,881 <= Re-l <= 14,335 respectively. The USLF's thickness was measured using button electrodes. The results showed that the liquid film became thinner after leaving the inlet and the circumferential fluctuation of the thickness was not significant. The gas-liquid velocities had significant influences on film thickness, which increased almost linearly as liquid velocity increased, while presented a roughly S-shaped distribution as gas velocity increased. The friction factors of GLCC were determined based on the measured liquid film thickness and pressure drop. Additionally, the USLF's flow patterns include swirling annular flow and swirling churn flow. Finally, a judgment criterion for flow pattern transition was established under the minimum gas-liquid interfacial stress theory. The model could accurately predict the transition condition. This work may provide a basis for comprehensive understanding of USLF characteristics.

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来源
《Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics》 |2021年第1期|共15页
作者
Wang Ya-An; Chen Jian-Yi; Yue Ti; Yang Yang; Han Ming-Shan; Yan Chao-Yu;
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作者单位

China Univ Petr State Key Lab Heavy Oil Proc Beijing 102249 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类流体力学;
关键词
Gas-liquid cylindrical cyclone (GLCC); Upper swirling liquid film (USLF); Liquid film thickness; Swirling friction factors; Flow pattern transition;

机译：气液圆柱形旋风（GLCC）;上旋流液膜（USLF）;液体膜厚度;旋转摩擦因子;流动模式过渡;

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2. Multi-scale Chaotic Analysis of the Characteristics of Gas-Liquid Two-phase Flow Patterns [J] . 李洪伟, 周云龙, 孙斌, 中国化学工程学报：英文版 . 2010,第005期
3. Performance assessment of an inline horizontal swirl tube cyclone for gas-liquid separation at high pressure [J] . Nurhayati Mellon, Azmi M. Shariff 天然气化学（英文版） . 2011,第006期
4. Experimental and numerical study of Upper Swirling Liquid Film (USLF) among Gas-Liquid Cylindrical Cyclones (GLCC) [J] . Yue Ti, Chen Jianyi, Song Jianfei, Chemical engineering journal . 2019,第期

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Measurement of thickness and analysis on flow characteristics of upper swirling liquid film in gas-liquid cylindrical cyclone

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