Helical Capacitance Sensor-Based Gas Fraction Measurement of Gas–Liquid Two-Phase Flow in Vertical Tube With Small Diameter

Ye J.; Peng L.; Wang W.; Zhou W.

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Helical Capacitance Sensor-Based Gas Fraction Measurement of Gas–Liquid Two-Phase Flow in Vertical Tube With Small Diameter

机译：基于螺旋电容传感器的小口径立管气液两相流气体分数测量

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A helical capacitance sensor for gas fraction including void fraction and volumetric void fraction measurement of gas–liquid two-phase flow in a vertical tube of 5 mm in diameter is presented in this paper. The structure of the helical capacitance sensor is optimized using a finite element method to achieve a homogeneous sensitivity field distribution. A calibration device using the quick closing valve method is designed and used to calibrate the void fraction measurement. Experiment results show that the relative error of gas fraction is less than 10%. The reason for the nonlinearity between the sensor output and gas fraction to be measured is discussed. The linear model describing the relationship between capacitance and gas fraction is obtained by removing the wall capacitance.

机译：本文介绍了一种用于气体分数的螺旋电容传感器，包括在直径为5 mm的垂直管中测量气液两相流的空隙率和体积空隙率。使用有限元方法优化螺旋电容传感器的结构，以实现均匀的灵敏度场分布。设计了使用快速关闭阀方法的校准设备，并用于校准空隙率测量。实验结果表明，气体分数的相对误差小于10％。讨论了传感器输出与要测量的气体分数之间存在非线性的原因。通过去除壁电容可以得到描述电容与气体含量之间关系的线性模型。

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来源
《Sensors Journal, IEEE》 |2011年第8期|p.1704-1710|共7页
作者
Ye J.; Peng L.; Wang W.; Zhou W.;
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作者单位

Tsinghua National Laboratory for Information Science and Technology, Department of Automation, Tsinghua University, Beijing, China;

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正文语种 eng
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关键词
Gas–liquid two-phase flow; helical capacitance sensor; void fraction; volumetric void fraction;

机译：气液两相流;螺旋电容传感器;空隙率;体积空隙率;

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专利

1. Optimization of Helical Capacitance Sensor for Void Fraction Measurement of Gas-Liquid Two-Phase Flow in a Small Diameter Tube [J] . Ye J., Peng L., Wang W., Sensors Journal, IEEE . 2011,第10期

机译：小直径管中气液两相流空隙率螺旋电容传感器的优化设计
2. A new method of entrainment fraction measurement in annular gas-liquid flow in a small diameter vertical tube [J] . Huawei Han, Kamiel S. Gabriel, Zhaolin Wang Flow Measurement and Instrumentation . 2007,第2期

机译：小口径垂直管中气液环流夹带测量的新方法
3. The Flow Characteristics of an Upward Gas―Liquid Two-Phase Flow in a Vertical Tube with a Wire Coil: Part 2. Effect on Void Fraction and Liquid Film Thickness [J] . Keishi Takeshima, Terushige Fujii, Nobuyuki Takenaka, Heat Transfer Asian Research . 2002,第8期

机译：带有线圈的垂直管中的气液两相向上流动的流动特性：第2部分。对空隙率和液膜厚度的影响
4. The Theoretical Model for Void Fraction of Gas-Liquid Two-Phase Flow in Vertical Tubes [C] . Yunlong ZHOU, Bin SUN International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion; 20050703-06; Xi'an(CN) . 2005

机译：垂直管中气液两相流空隙率的理论模型
5. Experimental investigation of the effects of helical wire coils on critical heat flux, boiling heat transfer and two-phase flow patterns in round tubes. [D] . Lan, Jianwei. 1996

机译：螺旋线圈对临界热通量，沸腾传热和圆管内两相流型的影响的实验研究。
6. Measurement of Gas-Liquid Two-Phase Flow in Micro-Pipes by a Capacitance Sensor [O] . Haifeng Ji, *, Huajun Li, 2014

机译：用电容传感器测量微型管道中气液两相流
7. Velocity of Liquid Lumps in Vertical Upward Gas-Liquid Two-Phase Flow in Capillary Tubes. Effect of Tube Diameter in Annular Flow. [O] . Hideo Ide, Hirohisa Matsumura, Hisayoshi Kado 1993

机译：毛细管垂直向上气液两相流液体液体速度。管直径在环形流动中的影响。
8. Two-Phase Gas-Liquid Flow Dynamics: Part I. Flow Oscillations in Transparent, Parallel, Vertical, Heated Channels. Part II. Acoustic Velocity in Two-Phase Flow [R] . Gouse, S. W., Evans, R. G., Deane, C. W., 1967

机译：两相气液流动力学：第一部分：透明，平行，垂直，加热通道中的流动振荡。第二部分。两相流中的声速

Helical Capacitance Sensor-Based Gas Fraction Measurement of Gas–Liquid Two-Phase Flow in Vertical Tube With Small Diameter

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