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气力提升管内流型识别的实验研究 被引量:1

An Experimental Study on Flow Pattern Identification of Air-Lift Pipes
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摘要 以压缩空气、水和麦饭石陶瓷颗粒作为实验介质,利用高速摄像仪对气力提升管内的气液两相流流型及气液固三相流流型进行可视化分析识别。实验结果表明,采用高速摄像技术有效识别了气力提升管内的流型,观察到气液两相流中存在着4种流型:泡状流、弹状流、泡沫流、环状流。以气液两相流流型特征为基础参考,将观察到的气液固三相流流型归分为弹旋流、旋涡流、波浪流、聚泡流和环柱流5种。并对各流型间的转变机理进行了分析阐述。 The experimental medium are compressed air, water and medical stone ceramic particles in this paper. The gas-liquid two-phase flow pattern and the gas-liquid-solid three-phase flow pattern in the air-lift pipe were visualized analyzed and identi?ed by high-speed camera technology. The results of experiment show that the high-speed camera technology can effectively identify the flow pattern. It is observed that there are four kinds of flow patterns in gas-liquid two-phase flow: bubble flow, slug flow, churn flow and annular flow. Base on the flow pattern characteristics of gas-liquid two-phase flow, the gas - liquid - solid three-phase flow pattern can be divided into five flow patterns: slugspiral flow, vortical-spiral flow, wave flow, coalesced churn flow, and annular column flow. In addition, the mechanism of the transition between the flow pattern is discussed.
作者 王霞光 傅绍棠 徐旭
机构地区 湖南工业大学机械工程学院
出处 《湖南工业大学学报》 2017年第6期43-48,共6页 Journal of Hunan University of Technology
基金 湖南省研究生科研创新基金资助项目(CX2017B686)
关键词 气力提升管 气液两相流 气液固三相流 流型 air-lift pipe gas-liquid two-phase flow gas-liquid-solid three-phase flow flow pattern
分类号 TD432 [矿业工程—矿山机电]
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  • 1李炜.大洋采矿的气力提升特性[J].中国有色金属学报,1993,3(1):81-86. 被引量:3
  • 2杨林,唐川林,张凤华.水下开采提升气举机电装置的特性及应用[J].矿冶工程,2005,25(2):13-16. 被引量:10
  • 3尹则高,张土乔,黄亚东,吴小刚.连续突扩管流的数值模拟[J].流体机械,2005,33(8):24-27. 被引量:11
  • 4Hitoshi F., Stotosh O, Hirdiko T., Natsuo H. Operation performance of a small air- lift pump for conveying solid particles[J]. ASME Journal of Energy Resources Technology,2003,125:17 -25 被引量:1
  • 5Newitt D. M., Richardson J. F., Gliddon B. J. Hydraulic conveying of solids in vertical pipes. International Chemistry Engineering, 1961, 39:93-97 被引量:1
  • 6Akira Ohnuki. Model development for bubble turbulent diffusion and bubble diameter in large vertical pipes [ J ]. Journal of Nucleap Science and Technology, 2001, 38 : 1 074 - 1 080. 被引量:1
  • 7Liang N K. A preliminary study on air-lift artificial upwelling system [ J ]. Acta Oceanographica Taiwanica, 1996, 35: 187 - 200. 被引量:1
  • 8Kato H, Miyazawa T, Timaya S, et al. A study of an air lift pump for solid particles [J]. JSME, 1975, 18:286 -294. 被引量:1
  • 9Hitoshi Fujimoto. Effect of local pipe bends on pump performance of a small air-lift system in transporting solid particles [ J]. International Journal of Heat and Fluid Flow, 2004, 25 : 996 - 1 005. 被引量:1
  • 10Fujimoto H, Ogawa S, Takuda H, et al. Operation performance of a small air-lift pump for conveying solid particles [J]. Trans. ASME J. Energy Res. Techn. , 2003, 125:17-25. 被引量:1

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湖南工业大学学报
2017年 第6期

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