An image analysis technique for determination of void fraction in subcooled flow boiling of water in horizontal annulus at high pressures

Ugandhar Puli; A.K. Rajvanshi

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An image analysis technique for determination of void fraction in subcooled flow boiling of water in horizontal annulus at high pressures

机译：确定高压水平环空水过冷沸腾中空隙率的图像分析技术

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Experiments were performed in subcooled flow boiling of distilled water in horizontal annulus at mass fluxes from 400 to 1200kg/m~2-s, heat fluxes from 0.1 to 1 MW/m~2 and pressures varying from 1 to 4 bar at constant subcooling of 20℃ with the intention of determining void fraction by optical methods and to study the effect of pressure, mass flux and heat flux and location of heated length on void fraction. National Instruments Labview IMAQ Vision Building image processing software was used to analyze the images obtained by high speed visualization. It was found that void fraction decreases with the increase in pressure and mass flux whereas heat flux has opposite effect. Void fraction increases considerably with the increase in heated lengths.

机译：在水平通量的蒸馏水过冷沸腾条件下进行实验，质量通量为400至1200kg / m〜2-s，热通量为0.1至1 MW / m〜2，压力恒定为1至4 bar。目的是通过光学方法确定20％的空隙率，并研究压力，质量通量和热通量以及加热长度的位置对空隙率的影响。使用NI Labview IMAQ Vision Building图像处理软件来分析通过高速可视化获得的图像。发现空隙率随压力和质量通量的增加而降低，而热通量具有相反的作用。空隙率随加热长度的增加而显着增加。

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来源
《International Journal of Heat and Fluid Flow》 |2012年第2012期|180-189|共10页
作者
Ugandhar Puli; A.K. Rajvanshi;
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作者单位

Nizwa College of Technology, Nizwa, 611 Sultanate of Oman;

Mechanical Engineering Department, Malaviya National Institute of Technology, Jaipur 302 017, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
flow visualization; subcooled flow boiling; image analysis; void fraction;

机译：流程可视化;过冷流沸腾;图像分析;空隙率;

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1. Parametric effect of pressure on bubble size distribution in subcooled flow boiling of water in a horizontal annulus [J] . Puli U., Anil Kumar R. Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2012,第Null期

机译：水平环空过冷水沸腾中压力对气泡尺寸分布的参数影响
2. Simulation of void fraction profile evolution in subcooled nucleate boiling flow in a vertical annulus using a bubble-tracking approach [J] . Kljenak I, Mavko B Heat and mass transfer . 2006,第6期

机译：使用气泡跟踪方法模拟垂直环空中过冷核沸腾流中空隙率分布的演变
3. Flow map and measurement of void fraction and heat transfer coefficient using an image analysis technique for flow boiling of water in a silicon microchannel [J] . S. G. Singh, A. Jain, A. Sridharan, Journal of Micromechanics and Microengineering . 2009,第7期

机译：硅微通道中水流沸腾的图像分析技术的流图和孔隙率和传热系数的测量
4. Void Fraction Evolution Along Subcooled Boiling Flowin Vertical Annulus [C] . Ivo Kljenak ANS student mini-conference;Annual meeting of American Nuclear Society . 2001

机译：沿沸腾沸腾流动垂直环空的空隙分数进化
5. Modeling and experiments for wall heat flux partitioning during subcooled flow boiling of water at low pressures. [D] . Basu, Nilanjana. 2003

机译：低压过冷水沸腾过程中壁热流分配的建模和实验。
6. Local data of heat flux wall temperature and the void phase along the boiling curve during vertical subcooled flow boiling of refrigerant Novec 649 at a copper wall [O] . Moritz Bruder, Ludwig Sembach, Veronika Krumova, 2018

机译：制冷剂Novec 649在铜壁上的垂直过冷流动沸腾过程中沿沸腾曲线的热通量壁温和空隙相的局部数据
7. Investigation of subcooled void fraction growth in water under low pressure and low flowrate conditions. [O] . Ronald McLeod -1

机译：低压和低流量条件下水中脱硫馏分生长的研究。

An image analysis technique for determination of void fraction in subcooled flow boiling of water in horizontal annulus at high pressures

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