Experimental Study of a Gas–Liquid Flow in Vacuum Air-Lift Column Using an Optical Bi-Probe

Allatchi Hassan Barkai; Mahmoud El Hajem; Tom Lacassagne; Jean-Yves Champagne

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Experimental Study of a Gas–Liquid Flow in Vacuum Air-Lift Column Using an Optical Bi-Probe

机译：光学双探针在真空提升塔内气液流的实验研究

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The vacuum airlift column process was patented in 2007 and is under development. The experimental study of its hydrodynamics is one of the axes explored to optimize its design and operation. The object of the study presented in this paper is to determine the functions of phase indicator (gas holdup, superficial gas velocity and bubble size) of the gas–liquid flow. The experimental analysis is carried out using a two-phase instrumentation consisting of an optical fiber bi-probe. The use of experimental techniques has made it possible to better understand the hydrodynamics of a two-phase flow. The optical bi-probe placed between two column flanges made it possible to have a complete mapping of the flow of the dispersed phase. The use of a mass flow meter and an ultrasonic flowmeter, in different flow configurations, provided data on the column operation.

机译：真空气举柱工艺已于2007年获得专利，并且正在开发中。其流体动力学的实验研究是优化其设计和运行的探索轴之一。本文提出的研究目的是确定气液流动的相位指示器（气体滞留率，表观气体速度和气泡大小）的功能。使用由光纤双探头组成的两相仪器进行实验分析。实验技术的使用使人们可以更好地理解两相流的流体动力学。放置在两个柱法兰之间的光学双探头使对分散相流的完整映射成为可能。在不同的流量配置中使用质量流量计和超声波流量计可提供有关色谱柱操作的数据。

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《Fluids》 |2019年第2期|共页
作者
Allatchi Hassan Barkai; Mahmoud El Hajem; Tom Lacassagne; Jean-Yves Champagne;
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中图分类流体力学;
关键词
vacuum airliftbubble columnoptical bi-probegas holdupbubble sizevelocity vacuum airliftbubble columnoptical bi-probegas holdupbubble sizevelocity;

机译：真空气举气泡柱光学双探头持气气泡大小速度真空气举气泡柱光学双探头持气气泡大小速度;

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机译：气举式气泡塔内气液两相流的持气量和摩擦系数
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机译：液环真空泵气液瞬态流动的实验研究及其液压激励
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机译：泰勒气泡从停滞不流动的牛顿液体垂直柱升起后的流动模式：一项实验研究
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机译：实验室规模的气举泵流固液三相混合气的实验研究
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机译：气液固垂直流系统（流场，气体滞留）的水力效应的实验和理论研究。
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机译：近壁液膜流出的实验研究与喷嘴流入真空的旋流气流。 2.喷嘴后面的流动结构
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机译：旋转盘间浮动液柱稳定性及流动特性的试验研究

Experimental Study of a Gas–Liquid Flow in Vacuum Air-Lift Column Using an Optical Bi-Probe

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