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水平管气液分层流压力梯度和含气率计算方法研究 被引量:7

Study on the Calculation of Pressure Gradient and Void Fraction in Horizontal Gas Liquid Two Phase Stratified Flow
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摘要 在内径为80mm的大型多相流实验环道上,深入研究了高气相流速下气液分层流压力梯度和截面含气率特性,截面含气率采用双能伽马射线密度仪测量.通过对相间剪切应力的研究,提出应用气相动量方程计算压力梯度和界面含气率.采用FLAT、ARS、MARS3种界面形状模型计算了水平管气液两相分层流压力梯度和截面含气率,并将计算结果与实验结果进行了对比分析,ARS和MARS模型的预测结果接近且误差小,因此推荐采用ARS或MARS模型预测高气相流速分层流压力梯度和截面含气率. Extensive experiments were conducted with a large-scale multiphase flow test loop made of 80 mm diameter stainless steel pipe. Experimental results were presented for pressure drop and void fraction in gas-liquid two-phase stratified flow at high gas velocity. The void fraction was measured using a dual energy gamma ray densitometer. The calculation method using gas phase momentum balance with which the pressure gradient and the void fraction were determined. Three kinds of interfacial shape models (FLAT, ARS, MARS) are adopted to calculate the pressure gradient and the void fraction in horizontal gas-liquid two-phase stratified flow. The results calculated are compared with the experimental data to evaluate three models. The ARS and MARS models generally give better predictions within the experimental range. They are recommended to predict the pressure gradient and the void fraction for stratified flow at high gas velocity.
作者 曹学文 梁法春 黄庆宣 林宗虎
机构地区 西安交通大学能源与动力工程学院 石油大学储运与建筑工程学院
出处 《西安交通大学学报》 EI CAS CSCD 北大核心 2003年第5期444-446,共3页 Journal of Xi'an Jiaotong University
基金 国家自然科学基金资助项目(59995460).
关键词 气液两相流 分层流 压力梯度 含气率 界面形状 Calculations Gases Liquids Pressure
分类号 TK12 [动力工程及工程热物理—工程热物理]
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参考文献6

  • 1Taitel Y, Dukler A E. A model for predicting flow regime transition in horizontal and near horizontal gasliquid flows[J]. AIChE Journal, 1976, 22(1): 47-55.
  • 2Vlachos N A, Paras S A, Karabelas A J. Prediction of holdup, axial pressure gradient and wall shear stress in wavy stratified and stratified/atomization gas/liquid flow [J]. Int Journal of Multiphase Flow, 1999, 25:365-376.
  • 3Hart J, Hamersma P J, Fortuin J M H. Correlations predicting frictional pressure drop and liquidup during horizontal gas liquid pipe flow with a small liquid holddup [J].Int Joumal of Multiphase Flow, 1989,15: 947-964.
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同被引文献92

引证文献7

二级引证文献29

西安交通大学学报
2003年 第5期

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