常压下SiC包壳材料表面饱和池式沸腾汽泡行为机理研究  

作　　者：金德升 严亚伦 程艳花 付学峰 彭振驯 廖业宏 毛玉龙 Jin Desheng;Yan Yalun;Cheng Yanhua;Fu Xuefeng;Peng Zhenxun;Liao Yehong;Mao Yulong(China Nuclear Power Technology Research Institute Co.,Ltd.,Shenzhen,Guangdong,518000,China)

机构地区：[1]中广核研究院有限公司,广东深圳518000

出　　处：《核动力工程》2024年第S01期167-174,共8页Nuclear Power Engineering

基　　金：国家自然科学基金(U20B0211,52171085)。

摘　　要：SiC材料是一种耐高温、抗氧化性好的耐事故燃料(ATF)类型,其传热及临界热流密度(CHF)性能是评估材料性能的重要指标,汽泡行为机理研究有助于评估其传热性能。采用常压池式沸腾可视化实验装置对SiC包壳材料汽泡行为机理进行研究,分析了其池式沸腾曲线不同区段中汽泡生长、脱离过程。根据观察到的SiC包壳表面池式沸腾汽泡图像,将整个池式沸腾传热过程分为自然对流区段、孤立汽泡核态沸腾区段、弹状汽泡核态沸腾区段和膜状汽泡核态沸腾区段4个区段。在孤立汽泡核态沸腾区段,SiC包壳表面汽泡生长时间较短、汽泡脱离频率高;在弹状汽泡核态沸腾区段,SiC表面产生大量汽泡,汽泡之间的相互作用剧烈,SiC表面传热较强。建立的接触角与脱离直径关系式可为后续传热模型的建立提供重要支撑。SiC material is a kind of accident tolerant fuel(ATF)with high temperature resistance and good oxidation resistance.Its heat transfer and critical heat flux(CHF)are important indexes to evaluate the material performance,and the study of bubble behavior mechanism is helpful to evaluate its heat transfer performance.In this paper,the bubble behavior mechanism of SiC cladding material was studied by using the visualization experimental device of pool boiling at atmospheric pressure,and the bubble growth and detachment process in different sections of pool boiling curve were analyzed.According to the observed images of pool boiling bubbles on the surface of SiC cladding,the whole pool boiling heat transfer process can be divided into four sections:natural convection section,isolated bubble nucleate boiling section,slug bubble nucleate boiling section and film bubble nucleate boiling section.In the nucleate boiling zone of isolated bubbles,the growth time of bubbles on the surface of SiC cladding is short and the detachment frequency of bubbles is high.In the nucleate boiling zone of slug bubbles,a large number of bubbles are produced on the surface of SiC,and the interaction between bubbles is intense,resulting in strong heat transfer on the surface of SiC.The relationship between contact angle and detachment diameter is established,which can provide important support for the establishment of subsequent heat transfer model.

关 键 词：SIC 池式沸腾 汽泡行为 脱离直径 脱离频率 

分 类 号：TL334[核科学技术—核技术及应用]