起伏振动水平管气液两相流型及转变机理  

作　　者：刘起超 张世博 周云龙[1] 李昱庆 陈聪 冉议文 LIU Qichao;ZHANG Shibo;ZHOU Yunlong;LI Yuqing;CHEN Cong;RAN Yiwen(College of Energy and Power Engineering,Northeast Electric Power University,Jilin 132011,Jilin,China;Lianyungang Hongyang Thermal Power Co.,Ltd.,Lianyungang 222042,Jiangsu,China)

机构地区：[1]东北电力大学能源与动力工程学院,吉林吉林132011 [2]连云港虹洋热电有限公司,江苏连云港222042

出　　处：《化工学报》2024年第2期493-504,F0003,共13页CIESC Journal

基　　金：东北电力大学博士科研启动基金项目(BSJXM-2023105);国家自然科学基金项目(51776033)。

摘　　要：起伏振动下气液两相流型的准确判定对漂浮核电站参数设计有重要意义。对起伏振动水平管气液两相流型特性进行实验研究,定义了起伏振动新流型并得到了气液相分布变化规律,揭示了管径、振频和振幅对流型转变界限的影响规律,建立了泡状流-间歇流和间歇流/分层流-环状流的转变关系式。结果表明,在起伏振动下水平管内出现泡状流、间歇流、分层流以及环状流四种流型,其中间歇流包括泡-弹间歇和弹-塞间歇两种,且气液相分布随振动位置的变化呈规律性改变。在气相折算速度不变的条件下,管径、振频、振幅增加会使泡状流-间歇流边界向上移动,间歇流-分层流边界向下移动。在液相折算速度一定的条件下,管径、振频、振幅增加会使间歇流/分层流-环状流边界向右移动。考虑了振动的影响,建立适用于低频高幅起伏振动的间歇流向泡状流与环状流转变模型,预测和实验结果的相对误差绝对值的平均值分别为7.62%和12.68%。The accurate determination of gas-liquid two-phase flow patterns under fluctuating vibration is of great significance for the design of floating nuclear power plants.Experimental research was conducted on the characteristics of gas-liquid two-phase flow pattern in horizontal tube under fluctuating vibration.New flow patterns were defined and the distribution law of gas-liquid phase was obtained.The influence of pipe diameter,vibration frequency and amplitude on the transition boundary of the flow patterns was revealed.Finally,the transition relationships between bubbly flow and intermittent flow as well as that between intermittent or stratified flow and annular flow were established.The results show that there are four flow regimes,namely bubble flow,intermittent flow,stratified flow and annular flow.It is interesting that the intermittent flow has two types,which are bubble slug intermittent flow and slug plug intermittent flow.Besides,the distribution of gas-liquid two-phase shows a regular change with the change of vibration position.With the same gas superficial velocity,the boundary between bubble flow and intermittent flow moves upwards with the increase of pipe diameter,vibration frequency and amplitude,meanwhile the boundary between intermittent flow and stratified flow move downwards.Under the condition that the liquid phase conversion velocity is constant,increases in pipe diameter,vibration frequency,and amplitude will cause the intermittent flow/stratified flow-annular flow boundary to move to the right.Taking into account the influence of vibration,the transition boundary of intermittent flow to bubbly flow and annular flow were established suitable for low frequency and high amplitude fluctuating vibration.The mean absolute relative errors of prediction and experimental results are 7.62%and 12.68%,respectively.

关 键 词：起伏振动 气液两相流 流型 转变 预测 

分 类 号：TL334[核科学技术—核技术及应用]