Investigation of Slug Flow in Microchannel Boiling by Impedimetric Sensing

2019 IEEE SENSORS Pub Date : 2019-10-01 DOI:10.1109/SENSORS43011.2019.8956776
M. Talebi, Eiko Baeumker, K. Cobry, S. Sadir, A. Stroh, P. Woias
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引用次数: 1

Abstract

In this work, the possibility of using an AD5933 chip in an impedance logging system to monitor two-phase flow boiling in microchannels is investigated. Microchannel boiling flow regimes include bubbly, annular, churn, and slug flow. We have investigated the application of local impedance sensors to monitor boiling flow, specifically in the slug regime, as a demonstration case of the sensing concept. The logged impedance amplitude data from the AD5933 were validated by synchronized high-speed videos. Further post processing analysis of the results represents a great potential in using impedance sensing information on microchannel boiling by obtaining critical local information about the flow such as slug pulse width, slug frequency, and duty cycle.
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微通道沸腾中段塞流的阻抗传感研究
在这部作品中,可能使用一个AD5933芯片的阻抗测井系统监控对于微通道沸腾两相流。微通道沸腾流包括气泡流、环空流、搅拌流和段塞流。我们研究了局部阻抗传感器在监测沸腾流动中的应用,特别是在段塞流状态下,作为传感概念的演示案例。AD5933记录的阻抗幅值数据通过同步高速视频进行验证。进一步的后处理分析结果表明,通过获得关于流的关键局部信息,如段塞脉冲宽度、段塞频率和占空比,在微通道沸腾中使用阻抗传感信息具有很大的潜力。
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2019 IEEE SENSORS
2019 IEEE SENSORS
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