Analysis of Conductance Probes for Two-Phase Flow and Holdup Applications

机译：两相流量和持有应用的电导探头分析

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摘要

In this paper we perform an analysis of the conductance probes used in two-phase flow applications especially for two-phase flow tomography of annular flow, to measure the waves produced in the interface with different boundary conditions without perturbing the flow, and in addition we examine the holdup applications as measuring the average void fraction in a given region. The method used to obtain the detector conductance between the electrodes is to solve analytically the generalized Laplace equation in 3D with the boundary conditions of the problem, and then to obtain the average potential difference between the detector electrodes. Then, dividing the current intensity circulating between the emitter and the receiver electrodes by the average potential difference yields the probe conductance, which depends on the geometric and physical characteristics of the measured system and the probe. This conductance is then non-dimensionalized by dividing by the conductance of the pipe full of water. In this way a set of analytical expression have been obtained for the conductance of two-plate sensors with different geometries and locations. We have performed an exhaustive comparison of the results obtained using the equations deduced in this paper with the experimental data from several authors in different cases with very good agreement. In some cases when the distribution of bubbles is not homogeneous, we have explored the different alternatives of the effective medium theory (EMT) in terms of the self-consistent EMT and the non-consistent EMT.

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期刊名称 Sensors (Basel Switzerland)
作者
José-Luis Muñoz-Cobo; Yago Rivera; Cesar Berna; Alberto Escrivá;
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年(卷),期 2020(20),24
年度 2020
页码 7042
总页数 29
原文格式 PDF
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关键词
conductance probes; two-phase flow sensors; liquid fraction determination from relative conductance; two-phase flow tomography;

机译：电导探针;两相流动传感器;相对电导的液体分数测定;两相流断层扫描;

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专利

1. Water holdup measurement of oil-water two-phase flow in a horizontal well using a dual-circle conductance probe array [J] . Xu Lijun, Zhang Wen, Cao Zhang, Measurement Science & Technology . 2016,第11期

机译：双圆电导探头阵列测量水平井油水两相流持水率
2. Effects of flow patterns and salinity on water holdup measurement of oil-water two-phase flow using a conductance method [J] . Liu W. X., Jin N. D., Han Y. F., Measurement . 2016,第Null期

机译：流度和盐度对电导法测量油水两相流持水率的影响
3. The development of a conductance method for measuring liquid holdup in horizontal oil-water two-phase flows [J] . Lusheng Zhai, Ningde Jin, Yanbo Zong, Measurement Science & Technology . 2012,第2期

机译：电导法测量水平油水两相流中持液量的研究进展
4. Water holdup prediction of oil-water two-phase flow in horizontal well using a 12-probe conductance array [C] . Xiaokai Zhang, Lijun Xu, Jiangtao Sun, International Instrumentation and Measurement Technology Conference . 2020

机译：利用12探针电导阵列预测水平井油水两相流持水率。
5. Two-phase pressure drop and holdup in flows through large diameter vertical tubing. [D] . Guler-Quadir, Nihal. 1991

机译：流经大直径垂直管的两相压降和滞留量。
6. The Finite Element Analysis for a Mini-Conductance Probe in Horizontal Oil-Water Two-Phase Flow [O] . Weihang Kong, Lingfu Kong, Lei Li, 2016

机译：水平油水两相流中微导探头的有限元分析
7. The Finite Element Analysis for a Mini-Conductance Probe in Horizontal Oil-Water Two-Phase Flow [O] . Weihang Kong, Lingfu Kong, Lei Li, 2016

机译：水平油水两相流微型电导探头的有限元分析
8. ANALYSIS OF ANNULAR TWO-PHASE FLOW:APPLICATION OF THE DUKLER ANALYSIS TO VERTICAL UPWARD FLOW IN A TUBE [R] . G. F. Hewitt 1961

机译：环形两相流分析：DUKLER分析在管内垂直向上流动中的应用

Analysis of Conductance Probes for Two-Phase Flow and Holdup Applications

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