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基于环-岛阵列式传感器的螺旋管内环状流中液膜分布特性研究

Experimental Study on Characteristics of Liquid Film of Annular Flow in Helically Coiled Tube Using Ring-island Array Sensor
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摘要 螺旋管内液膜厚度的空间分布形式直接影响螺旋管式蒸汽发生器环状流动区的传热性能。本文基于自主研制的非侵入接触式环-岛阵列式传感器,对不同结构立式螺旋管内环状流中液膜的三维时空分布特性进行了实验研究。根据较厚液膜在管道周向出现的位置,定义了4种典型的液膜分布形式,包括重力主导的底部分布、液相离心力主导的外侧分布、气相离心力主导的内侧分布以及二次流主导的内-外侧分布。系统分析了气液流速、螺旋直径和螺旋节距对液膜分布形式的影响,基于修正的Dean数De^(*)和修正的Lockhart-Martinelli参数X^(*),绘制了液膜流动通用子流型图,并提出了不同液膜分布区的转变判据。 Helically coiled tube(HCT)is widely used in nuclear engineering and other fields due to its effective compactness,excellent structure robustness,heat transfer efficiency and flow stability.As one of the most important gas-liquid two-phase flow patterns in HCT,the characteristic of annular flow has a great influence on the heat transfer performance of helical once-through steam generator.Especially,the circumferential distribution of liquid film thickness in annular flow directly determines the dryout onset location.Although the liquid film flow in straight tubes has been extensively studied,due to the limitation of measurement technology,the precise measurement data of liquid film thickness in HCT are still very rare.In this paper,based on the self-developed non-invasive contact ring-island array sensor(RIAS),air-water two-phase flow experiments were carried out to study the three-dimensional spatial-temporal distribution of liquid film thickness in vertical HCT with different structures.According to the results,four typical liquid film flow regimes were defined based on the circumferential position of the thicker liquid film appearing in the tube wall.That is,the bottom distribution(BD)dominated by gravity force,the outside distribution(OD)dominated by liquid centrifugal force,the inside distribution(ID)dominated by gas centrifugal force and the inside-outside distribution(IOD)dominated by secondary flow.The effects of coil diameter and coil pitch of HCT as well as gas and liquid velocities on the distribution of liquid film flow regimes were detailed analyzed.It is implied that the coil diameter determines the intensity of centrifugal force and secondary flow.Generally,the smaller the coil diameter,the easier the circumferential distribution forms of OD,ID and IOD are to appear.Also,increasing the coil pitch weakens the effect of centrifugal force on the liquid film.Then a small coil pitch normally results in the circumferential distribution form of OD while it is ID for large coil pitch.It is also found that the IOD occurs only when both gas and liquid velocities are large enough.By taking the influence of HCT geometry and fluid parameters into account,a general sub-map of liquid film flow in HCT was proposed using the modified Dean number De^(*)and the modified Lockhart-Martinelli parameter X^(*).The transition criteria between different liquid film flow regimes were also established and verified with experimental data in present work and previous references.From this work,the mechanism of curvature-induced centrifugal force and secondary flow on the spatiotemporal evolution of liquid film in HCT is revealed.
作者 刘莉 刘帅 张嘉荣 刘茂龙 陈硕 肖瑶 刘利民 顾汉洋 LIU Li;LIU Shuai;ZHANG Jiarong;LIU Maolong;CHEN Shuo;XIAO Yao;LIU Limin;GU Hanyang(School of Nuclear Science and Engineering,Shanghai Jiao Tong University,Shanghai 200240,China)
出处 《原子能科学技术》 EI CAS CSCD 北大核心 2022年第11期2334-2342,共9页 Atomic Energy Science and Technology
基金 国家自然科学基金(51906147) 上海市自然科学基金(21ZR1430900)。
关键词 螺旋管 环状流 液膜分布 环-岛阵列式传感器 helically coiled tube annular flow liquid film distribution ring-island array sensor
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