原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2014年
11期
1985-1991
,共7页
臧丽叶%田瑞峰%刘晓一%孙兰昕
臧麗葉%田瑞峰%劉曉一%孫蘭昕
장려협%전서봉%류효일%손란흔
激光诱导荧光%液膜厚度%功率谱密度%多频%孤立波%波动幅度
激光誘導熒光%液膜厚度%功率譜密度%多頻%孤立波%波動幅度
격광유도형광%액막후도%공솔보밀도%다빈%고립파%파동폭도
PLIF%film thickness%PSD%multiple frequency%solitary-type wave%wave amplitude
利用平面激光诱导荧光技术(PLIF)结合数字图像处理对不同 Re下液膜厚度的实时变化进行测量。通过MATLAB内建功率谱密度计算函数对液膜波动的时间序列进行进一步的处理,获得了液膜波动特性的功率谱密度(PSD)曲线,对不同 Re下的液膜波动规律进行了频谱分析。结果表明:液膜波动具有显著的多频特性,且各频率有优劣之分,孤立波数量虽少,却携带液膜波动的大部分能量,对液膜波动的贡献不可忽略。液膜波动幅度与 Re有关并呈现出一定的规律性:小 Re时,液膜的波动幅度与Re有强烈的相关性,随 Re的增大而增大;中等 Re时,液膜的波动幅度基本保持稳定;大 Re时,孤立波的出现使液膜波动幅度急剧增大,液膜波动不稳定性增强。
利用平麵激光誘導熒光技術(PLIF)結閤數字圖像處理對不同 Re下液膜厚度的實時變化進行測量。通過MATLAB內建功率譜密度計算函數對液膜波動的時間序列進行進一步的處理,穫得瞭液膜波動特性的功率譜密度(PSD)麯線,對不同 Re下的液膜波動規律進行瞭頻譜分析。結果錶明:液膜波動具有顯著的多頻特性,且各頻率有優劣之分,孤立波數量雖少,卻攜帶液膜波動的大部分能量,對液膜波動的貢獻不可忽略。液膜波動幅度與 Re有關併呈現齣一定的規律性:小 Re時,液膜的波動幅度與Re有彊烈的相關性,隨 Re的增大而增大;中等 Re時,液膜的波動幅度基本保持穩定;大 Re時,孤立波的齣現使液膜波動幅度急劇增大,液膜波動不穩定性增彊。
이용평면격광유도형광기술(PLIF)결합수자도상처리대불동 Re하액막후도적실시변화진행측량。통과MATLAB내건공솔보밀도계산함수대액막파동적시간서렬진행진일보적처리,획득료액막파동특성적공솔보밀도(PSD)곡선,대불동 Re하적액막파동규률진행료빈보분석。결과표명:액막파동구유현저적다빈특성,차각빈솔유우렬지분,고립파수량수소,각휴대액막파동적대부분능량,대액막파동적공헌불가홀략。액막파동폭도여 Re유관병정현출일정적규률성:소 Re시,액막적파동폭도여Re유강렬적상관성,수 Re적증대이증대;중등 Re시,액막적파동폭도기본보지은정;대 Re시,고립파적출현사액막파동폭도급극증대,액막파동불은정성증강。
A method of planar laser induced fluorescence (PLIF ) technology combined with digital image processing technology was proposed to measure the free falling film thickness on a vertical testing section .T he time sequences of film thickness of the film flow at different Reynolds numbers were obtained in the experiment . The frequency structure was analyzed on the base of the function which was used to calculate the power spectrum density in MATLAB .The results indicate that the thin‐film wave flow has the multiple frequency characteristics .The solitary‐type waves contain the largest portion of moving liquid mass .The wave amplitude depends strongly on the Reynolds number . The wave amplitude increases with the Reynolds number at small Reynolds number . The amplitude remains stable at medium Reynolds number .The appearance of the soli‐tary‐type waves at high Reynolds number leads to sharp increase of the wave amplitude and enhancement of the w ave instability .
