Comparison of disturbance wave parameters with flow orientation in vertical annular gas-liquid flows in a small pipe

Vasques Joao; Cherdantsev Andrey; Cherdantsev Mikhail; Isaenkov Sergey; Hann David

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Comparison of disturbance wave parameters with flow orientation in vertical annular gas-liquid flows in a small pipe

机译：小管中垂直环状气液流动方向流动波浪参数的比较

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摘要

The interfacial wave structure of the liquid film in both upward and downward annular gas-liquid flows in an 11.7 mm pipe were investigated using the Brightness Based Laser Induced Fluorescence technique (BBLIF). Film thickness measurements were carried out with high spatial and temporal resolution between 330 and 430 mm from the inlet, where the properties of disturbance waves are almost stabilised. Using a tracking algorithm to detect disturbance waves, a full characterisation in terms of their velocity, frequency, longitudinal size and spacing was carried out. Direct comparison between both flow orientations while testing the same flow conditions shows that although the flow orientation does not affect the velocity of disturbance waves, the fraction of film surface occupied by the disturbance waves is smaller in upwards flow. Thus, more liquid travels in the base film in upwards flow, which is consistent with the base film thickness measurements. These observations, together with qualitatively different behaviour of ripple wave velocity in upwards and downwards flows, studied using 2D Fourier analysis, indicate that the role of gravity is much more important on the base film than on disturbance waves. This supposedly occurs due to a local decrease in the interfacial shear stress on the base film surface because of the resistance of the disturbance waves to the gas stream in upward flow.

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来源
《Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics》 |2018年第2018期|共18页
作者
Vasques Joao; Cherdantsev Andrey; Cherdantsev Mikhail; Isaenkov Sergey; Hann David;
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作者单位

Univ Nottingham Fac Engn Nottingham England;

Kutateladze Inst Thermophys Novosibirsk Russia;

Kutateladze Inst Thermophys Novosibirsk Russia;

Kutateladze Inst Thermophys Novosibirsk Russia;

Univ Nottingham Fac Engn Nottingham England;

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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
Annular flow; Disturbance waves; Ripple waves; Flow orientation; BBLIF technique;

机译：环形流动;扰动波;波纹波;流向;BBLIF技术;

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1. An Investigation on the Void Fraction for upward Gas-Liquid Slug Flow in Vertical Pipe [J] . 夏国栋, 周芳德, 胡明胜中国化学工程学报：英文版 . 2001,第004期
2. The Effect of Sudden Change in Pipe Diameter on Flow Patterns of Air-Water Two-Phase Flow in Vertical Pipe (Ⅱ) Sudden-Expansion Cross-Section [J] . 中国化学工程学报（英文版） . 2001,第002期
3. Motion and orientation of cylindrical and cubic particles in pipe flow with high concentration and high particle to pipe size ratio [J] . Xiao-ke KU, Jian-zhong LIN 浙江大学学报（英文版）（A辑：应用物理和工程） . 2008,第005期
4. Comparison of disturbance wave parameters with flow orientation in vertical annular gas-liquid flows in a small pipe [J] . Vasques Joao, Cherdantsev Andrey, Cherdantsev Mikhail, Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2018,第期

机译：小管中垂直环状气液流动方向流动波浪参数的比较
5. Disturbance wave development in two-phase gas-liquid upwards vertical annular flow [J] . Zhao Y., Markides C.N., Matar O.K., International Journal of Multiphase Flow . 2013,第Null期

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机译：双线网传感器在环形和液体加载条件下垂直气液管道流动的实验研究
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9. Stability of the Laminar Flow Through a Straight Pipe of Circular Cross-Section to Infinitesimal Disturbances Which are Symmetrical about the Axis of the Pipe [O] . C. L. Pekeris 1948

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11. STUDIES OF THE BEHAVIOUR OF DISTURBANCE WAVES IN ANNULAR FLOW IN A LONG VERTICAL TUBE [R] . L E. GILL, G. F. HEWITT, D. N. ROBERTS 1969

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Comparison of disturbance wave parameters with flow orientation in vertical annular gas-liquid flows in a small pipe

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