原子能科学技术
原子能科學技術
원자능과학기술
Atomic Energy Science and Technology
2015年
11期
2030-2035
,共6页
唐继国%阎明%肖友军%阎昌琪%孙立成
唐繼國%閻明%肖友軍%閻昌琪%孫立成
당계국%염명%초우군%염창기%손립성
气泡微细化沸腾%气泡破裂%过冷度%界面波动
氣泡微細化沸騰%氣泡破裂%過冷度%界麵波動
기포미세화비등%기포파렬%과랭도%계면파동
microbubble emission boiling%bubble collapse%subcooling%surface wave
为研究过冷度对蒸汽气泡破碎及微气泡喷射过程的影响,利用高速摄像机记录不同过冷度下过冷池中蒸汽气泡凝结过程。实验结果表明:在低过冷度(ΔTsub=17 K)下,蒸汽气泡界面波动发展缓慢,气泡不会破碎,而是逐渐分裂凝结;在高过冷度(40 K<ΔTsub<75 K)下,蒸汽气泡表面上的波动剧烈发展,随后气泡会突然破碎,并形成大量微气泡;在ΔTsub=30 K时,气泡突然破碎前会有小气泡分裂现象发生。40 K<ΔTsub<75 K 时气泡破碎形成的微气泡的直径和速度在量级上与气泡微细化沸腾区域的微气泡接近。随过冷度的升高,微气泡的直径减小,速度增加,且蒸汽气泡破碎前其表面上波动的波数迅速增加,波动的最大幅值先增加后减少。
為研究過冷度對蒸汽氣泡破碎及微氣泡噴射過程的影響,利用高速攝像機記錄不同過冷度下過冷池中蒸汽氣泡凝結過程。實驗結果錶明:在低過冷度(ΔTsub=17 K)下,蒸汽氣泡界麵波動髮展緩慢,氣泡不會破碎,而是逐漸分裂凝結;在高過冷度(40 K<ΔTsub<75 K)下,蒸汽氣泡錶麵上的波動劇烈髮展,隨後氣泡會突然破碎,併形成大量微氣泡;在ΔTsub=30 K時,氣泡突然破碎前會有小氣泡分裂現象髮生。40 K<ΔTsub<75 K 時氣泡破碎形成的微氣泡的直徑和速度在量級上與氣泡微細化沸騰區域的微氣泡接近。隨過冷度的升高,微氣泡的直徑減小,速度增加,且蒸汽氣泡破碎前其錶麵上波動的波數迅速增加,波動的最大幅值先增加後減少。
위연구과랭도대증기기포파쇄급미기포분사과정적영향,이용고속섭상궤기록불동과랭도하과랭지중증기기포응결과정。실험결과표명:재저과랭도(ΔTsub=17 K)하,증기기포계면파동발전완만,기포불회파쇄,이시축점분렬응결;재고과랭도(40 K<ΔTsub<75 K)하,증기기포표면상적파동극렬발전,수후기포회돌연파쇄,병형성대량미기포;재ΔTsub=30 K시,기포돌연파쇄전회유소기포분렬현상발생。40 K<ΔTsub<75 K 시기포파쇄형성적미기포적직경화속도재량급상여기포미세화비등구역적미기포접근。수과랭도적승고,미기포적직경감소,속도증가,차증기기포파쇄전기표면상파동적파수신속증가,파동적최대폭치선증가후감소。
In order to investigate the effect of subcooling on vapor bubble collapse and microbubble emission,the condensation process of vapor bubbles in a subcooled pool at different subcoolings was recorded with a high-speed video camera.The results show that the development of surface wave emerged on the bubble surface is slow and the vapor bubbles are condensed and split up gradually without sudden collapse at low sub-cooling (ΔTsub=17 K).At high subcooling (40 K<ΔTsub<75 K),the surface wave on the surface is violent and the vapor bubbles will collapse suddenly with the emission of a large number of microbubbles.Nevertheless,the process of tiny bubbles splitting off from large bubble is observed before sudden collapse of bubble at liquid subcooling of 30 K.The diameter and velocity of microbubbles after collapse of vapor bubble are within the same order of magnitude of those in microbubble emission boiling at 40 K<ΔTsub<75 K.Furthermore,the diameter of microbubble decreases,while the velocity increases with the increase of subcooling.In addition,the wave number of the surface wave on bubble surfaces increases and the maximum amplitude of the surface wave increases firstly and then decreases with the increase of subcooling.