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螺旋桨空化初生的判定和空化斗的数值分析 被引量:16

Determination of Propeller Cavitation Initial Inception and Numerical Analysis of the Inception Bucket
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摘要 为了实现空化多相流模拟在螺旋桨空化初生和空化斗预报中的应用,采用改进Sauer空化模型和修正剪切应力输运(SST)湍流模型,对NSRDC4381桨的叶背和叶面片空化初生、梢涡空化初生和空化斗底线特征进行了模拟、校验和分析,提出了"当σ>σi时,叶梢截面压力系数分布不再改变"的空化初生判定准则,并分析了其适用范围.同时,将空化斗由传统的三区细分为五区,以更准确地描述不同工况点的桨叶空化状态.结果表明,在设计和非设计进速系数下,预报桨叶叶背和叶面不同叶截面的初生空化数均与实验值吻合较好;模拟梢涡空化初生再现了局部梢涡空化和导边梢涡空化同时存在的现象,证明了分别用叶背0.7R截面和叶面0.4R截面的片空化初生曲线来表征叶背和叶面可视梢涡空化初生的合理性.空化初生判定准则适用于空化斗底线上方的叶背和叶面片空化区.将空化斗底线下方区域进一步细分为叶背0.3R至叶梢的片空化区以及叶背与叶面同时片空化区,以更好地在工程中应用空化斗来描述桨叶空化形态和求取空化航态的航速. To apply the cavitation multiphase simulation for propeller cavitation inception and inception bucket prediction,the improved Sauer cavitation model and modified shear stress transport turbulence model were used to predict the NSRDC 4381 propeller's back and face sheet cavitation inception,tip vortex cavitation inception and inception bucket bottom line characteristics.A rule to determine the cavitation inception was presented printed as 'when σσi,the pressure coefficient of the tip blade section is unchangeable' and its application region on the bucket was limited also.Based on it,the inception bucket was partitioned more nicely from traditional three regions to five at last so to depict the blade cavitation stage under different conditions more precisely.The results show that,under design and non-design conditions,the predicted inception cavitation indexes of the back and face's blade section all agree well with the experiment.The simulated tip vortex cavitation inception represents the phenomenon of local tip vortex and leading edge tip vortex combination,and verifies the reasonableness of using the sheet cavitation inception curves of 0.7 R section on the back and 0.4 R section on the face to stand for the back and face's visual tip vortex inception respectively.The determination rule is valid for both back and face sheet cavitation region up the bottom line on the bucket.The region under the bottom line on the bucket can be partitioned as back sheet cavitation lying 0.3 R to tip on the blade surface and back and face sheet cavitation existing simultaneously in addition,so to sever the engineering better for using the five regions to depict the propeller cavitation and calculate the cavitation ship speed.
作者 杨琼方 王永生 张志宏
机构地区 海军工程大学船舶与动力学院 海军工程大学理学院
出处 《上海交通大学学报》 EI CAS CSCD 北大核心 2012年第3期410-416,共7页 Journal of Shanghai Jiaotong University
基金 国家自然科学基金资助项目(51009144)
关键词 螺旋桨 空化初生 空化斗 空化模型 湍流模型 propeller cavitation initial inception inception bucket cavitation model turbulence model
分类号 U664.34 [交通运输工程—船舶及航道工程]
  • 相关文献

参考文献12

  • 1Liu D C,Hong F W,Zhao F,et al.The CFD analy-sis of propeller sheet cavitation[C]//Proceedings of8th International Conference on Hydrodynamics.Nantes France:Ecole Centrale de Nantes FluidMechanics Laboratory,2008:1-6.
  • 2Lindau J W,Boger D A,Medvitz R B,et al.Propel-ler cavitation breakdown analysis[J].ASME Journalof Fluids Engineering,2005,127(5):995-1002.
  • 3Lindau J W,Moody W L,Kinzel M P,et al.Com-putation of cavitating flow through marine propulsors[C]//First International Symposium on Marine Pro-pulsors.Norway:Norwegian Marine Technology Re-search Institute,2009:168-177.
  • 4Kim S E.Multiphase CFD simulation of turbulentcavitating flows in and around marine propulsors[C]//Open Source CFD International Conference2009.Spain:IconCFD Inc,2009:1-31.
  • 5杨琼方,王永生,张志宏.螺旋桨叶截面空化模拟数值模型的改进与评估[J].北京理工大学学报,2011,31(12):1401-1407. 被引量:15
  • 6杨琼方 王永生 张志宏.螺旋桨空化崩溃性能图谱的多相流模拟与校验.华中科技大学学报:自然科学版,40(2):719-723.
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  • 8Gindroz B,Bailo G,Matera F,et al.Influence ofcavitation nuclei on the cavitation bucket when predic-ting the full-scale behavior of a marine propeller[C]//Proceedings of21st Symposium on Naval Hydrohydam-ics.USA:The National Academics Press,1997:839-850.
  • 9Boswell R J.Design,cavitation performance andopen-water performance of a series of researchskewed propellers,Report No.3339[R].Washing-ton D C:Naval Ship Research and Development Cen-ter,1971.
  • 10Kuiper G,Terwisga T,Zondervan G,et al.Cavitati-on inception tests on a systematic series of two-bladedpropeller[C]//26th Symposium on Naval Hydrody-namics.Rome,Italy:[s.n.],2006.

二级参考文献14

  • 1杨琼方,王永生,张志宏.螺旋桨梢涡空化初生和空化斗的数值求解[c]//第二十三届全国水动力学研讨会暨第十届全国水动力学学术会议文集.北京:海洋出版社,2011:467-474.
  • 2Singhal A K, Athavale M M, Li Huiying, et al. Mathe- matical basis and validation of the full cavitation model [J]. ASME Journal of Fluids Engineering, 2002, 124(4) :617 - 624.
  • 3ITTC. Final report of the cavitation committee[C]// Proceedings of 20th International Towing Tank Conference. San Francisco, USA:[s. n. ], 1993.
  • 4Gindroz B, Billet M L. Nuclei and acoustic cavitation inception of ship propellers[C] // Proceedings of 2nd In- ternational Symposium on Cavitation. Japan:[s. n.], 1994.
  • 5Rhee S H, Kawamura T, Li Huiying. Propeller cavitation study using an unstructured grid based Navier-Stokes solver[J]. ASME Journal of Fluids Engi- neering, 2005,127(5) :986 - 994.
  • 6Kim S. Multiphase CFD simulation of turbulent cavitating flows in and around marine propulsors[C]// Proceedings of Open Source CFD International Conference 2009. Barcelona, Spain: IconCFD, 2009.
  • 7Shin K W. Cavitation simulation on marine propellers [D]. Copenhagen, Denmark: Technical University of Denmark, 2010.
  • 8王国玉,张淑丽,张博,余志毅.FBM模型在栅中翼型云状空化流动数值计算中的应用[J].北京理工大学学报,2009,29(8):672-675. 被引量:5
  • 9杨琼方,王永生,范露.CFD在“机电一体化”导管桨性能分析及优化设计中的应用[J].机械工程学报,2010,46(1):162-168. 被引量:10
  • 10朱志峰,方世良,王晓燕.船舶螺旋桨黏性空化流场数值方法[J].东南大学学报(自然科学版),2010,40(6):1146-1151. 被引量:11

共引文献32

同被引文献119

引证文献16

二级引证文献94

上海交通大学学报
2012年 第3期

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