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脉动压力对空化的影响
引用本文:杨庆,张建民,戴光清,王海云,崔春亮. 脉动压力对空化的影响[J]. 四川大学学报(工程科学版), 2004, 36(4): 19-21,30
作者姓名:杨庆  张建民  戴光清  王海云  崔春亮
作者单位:1. 四川大学,高速水力学国家重点实验室,四川,成都,610065
2. 新疆水利水电科学研究院,新疆,乌鲁木齐,830049
基金项目:国家自然科学基金资助项目(50209010)
摘    要:为了消除空化试验的比尺效应,具体分析脉动压力对空化的影响,从泡动力学方程得出水中气核的发育时间和临界压力,得出气核的生长时间小于水流的负脉动周期;另由于水流脉动对气核的振荡作用,使气核提前膨胀,促使空化提前发生,计算空化数时需计入脉动压力项。根据N-S方程分析了脉动压力的模型律,结合原型测量结果,得出在强紊动区中脉动压力满足重力相似律,但在溢流坝面、陡槽底部等处脉动频率比尺不满足重力相似律,频率比尺约为1。在进行强紊动区的空化实验时,应注意水流脉动对空化的影响。

关 键 词:脉动压力  空化  气核  临界半径  相似律
文章编号:1009-3087(2004)04-0019-03

Effects of Fluctuation Pressure on Cavitation
YANG Qing,ZHANG Jian-min,DAI Guang-qing,WANG Hai-yun,CUI Chun-liang,Sichuan Univ.,Chengdu ,China,.Research Institute of Water Resources and Hydropower,Xinjiang,Urumchi ,China). Effects of Fluctuation Pressure on Cavitation[J]. Journal of Sichuan University (Engineering Science Edition), 2004, 36(4): 19-21,30
Authors:YANG Qing  ZHANG Jian-min  DAI Guang-qing  WANG Hai-yun  CUI Chun-liang  Sichuan Univ.  Chengdu   China  .Research Institute of Water Resources  Hydropower  Xinjiang  Urumchi   China)
Affiliation:YANG Qing~1,ZHANG Jian-min~1,DAI Guang-qing~1,WANG Hai-yun~1,CUI Chun-liang~2,Sichuan Univ.,Chengdu 610065,China,2.Research Institute of Water Resources and Hydropower,Xinjiang,Urumchi 830049,China)
Abstract:The main objective of this research is to avoid the cavitation scale effect, the term of fluctuation pressure is analyzed in details. Based on the dynamic equation of bubble,development time of gas nucleus in water and the required critical pressure are gained. As development time of gas nucleus is less than negative fluctuation period. The fluctuation pressuer make the gas nucleus expend early and cut down the growth time of gas nucleus, and make cavitation arised early. So the fluctuation pressure term must be reckoned in while calculating cavitation number. Model similarity law is analyzed based on N-S equation. Combined with measured result of prototype, it is concluded that fluctuation pressure in strong fluctuation area satisfy with the gravity similarity law, but the tests reveal that fluctuation pressure in smooth boundary layer, such as on overall dam face or steep channel bottom, don't obey the gravity similarity, and the frequency scale ration is about 1. As a result, when conducting cavitation test in strong fluctuation area, it is necessary to pay attention to the effect of flow fluctuation on cavitation.
Keywords:fluctuation pressure  cavitation  gas nucleus  critical radius  similarity law
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