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Optical Feedback Interferometry for Velocity Measurement of Parallel Liquid-Liquid Flows in a Microchannel

机译：光反馈干涉法用于微通道中平行液体流动速度的测量

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摘要

Optical feedback interferometry (OFI) is a compact sensing technique with recent implementation for flow measurements in microchannels. We propose implementing OFI for the analysis at the microscale of multiphase flows starting with the case of parallel flows of two immiscible fluids. The velocity profiles in each phase were measured and the interface location estimated for several operating conditions. To the authors knowledge, this sensing technique is applied here for the first time to multiphase flows. Theoretical profiles issued from a model based on the Couette viscous flow approximation reproduce fairly well the experimental results. The sensing system and the analysis presented here provide a new tool for studying more complex interactions between immiscible fluids (such as liquid droplets flowing in a microchannel).

机译：光反馈干涉测量法（OFI）是一种紧凑的传感技术，最近用于微通道中的流量测量。我们建议从两种不混溶流体平行流动的情况开始，在多相流动的微观尺度上实施OFI分析。测量了每个阶段的速度曲线，并针对几种操作条件估算了界面位置。据作者所知，这种传感技术在这里首次应用于多相流。从基于Couette粘性流近似的模型发布的理论轮廓可以很好地再现实验结果。此处介绍的传感系统和分析提供了一种新工具，用于研究不混溶流体（例如在微通道中流动的液滴）之间更复杂的相互作用。

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期刊名称 Sensors (Basel Switzerland)
作者
Evelio E. Ramírez-Miquet; Julien Perchoux; Karine Loubière; Clément Tronche; Laurent Prat; Oscar Sotolongo-Costa;
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作者单位

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年(卷),期 2016(16),8
年度 2016
页码 1233
总页数 12
原文格式 PDF
正文语种
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关键词
optical feedback interferometry velocimetry microfluidics parallel two-phase flows;

机译：光反馈干涉法;测速法;微流体学;平行两相流;
入库时间 2022-08-17 12:49:35

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专利

1. Optical Feedback Interferometry for Velocity Measurement of Parallel Liquid-Liquid Flows in a Microchannel [J] . Evelio E. Ramírez-Miquet, Julien Perchoux, Karine Loubière, Sensors . 2016,第8期

机译：光反馈干涉法用于微通道中平行液体流动速度的测量
2. Flow profile measurement in microchannel using the optical feedback interferometry sensing technique [J] . Lucie Campagnolo, Milan Nikolic, Julien Perchoux, Microfluidics and nanofluidics . 2013,第1a2期

机译：使用光反馈干涉测量技术在微通道中测量流量分布
3. A dual optical probe for volume fraction, drop velocity and drop size measurements in liquid-liquid two-phase flow [J] . F. A. Hamad, B. K. Pierscionek, H. H. Bruun Measurement Science & Technology . 2000,第9期

机译：双光学探头，用于在液-液两相流中测量体积分数，液滴速度和液滴尺寸
4. Micro-PTV technique application to velocity field measurements in immiscible liquid-liquid plug flow in microchannels [C] . A V Kovalev, A A Yagodnitsyna, A V Bilsky International Conference on Optical Methods of Flow Investigation . 2020

机译：微型PTV技术应用于微通道中不混溶的液体液塞流动的速度场测量
5. A study of adiabatic and diabatic flow boiling in parallel microchannels and fractal-like branching microchannels. [D] . Daniels, Brian J. 2008

机译：平行微通道和分形分支微通道中绝热和非绝热流沸腾的研究。
6. Electroosmotic flow velocity measurements in a square microchannel [O] . Shou-Shing Hsieh, Hung-Chun Lin, Chih-Yi Lin -1

机译：方形微通道中的电渗流速测量
7. Optical Feedback Interferometry for Velocity Measurement of Parallel Liquid-Liquid Flows in a Microchannel [O] . Ramírez-Miquet, Evelio Esteban, Perchoux, Julien, Loubière, Karine, 2016

机译：光反馈干涉法用于微通道中平行液体流动速度的测量

Optical Feedback Interferometry for Velocity Measurement of Parallel Liquid-Liquid Flows in a Microchannel

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