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水泵水轮机甩负荷过渡过程中的压力脉动和转轮受力 被引量:27

Transient pressure fluctuations and runner loadings of a model pump-turbine during a load rejection process
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摘要 水泵水轮机甩负荷过渡过程中,压力脉动和转轮受力剧烈变化,导致事故频发。本文采用动网格技术对某模型水泵水轮机的甩负荷过渡过程进行全流道三维数值模拟,分析了水轮机压力脉动和转轮受力变化特性及其演变的内流机理。结果表明:甩负荷过渡过程中,转轮进口回流的出现和发展显著增加了无叶区内流体的湍动能,使导叶与转轮之间的动静干涉明显增强,导致压力脉动幅值急剧上升,其最大值达到初始阶段的5倍以上;与此同时,转轮进口局部产生的回流使无叶区内的湍动能和压力脉动强度在高度方向不均匀分布;此外,转轮进口回流发展使叶道内流态分布失衡,产生低频旋转失速,导致转轮叶片所受力矩和径向力的波动幅值快速上升,最大波动幅值分别达到初始阶段的10倍和60倍,而尾水管涡带对其的影响处于次要地位。 During the load rejection process of pump-turbines,the pressure fluctuations and runner load- ings force change sharply,resulting in frequent accidents,In this paper,the dynamic grid technique was used to simulate the load rejection process of a model pump-turbine,and the change characteristics of pres- sure fluctuations and unstable forces 'acting on the runner were analyzed.The results show the emergence and development of backflow patterns at the runner inlet greatly increase the turbulent kinetic energy of the fluid in the vaneless space,which enhance the rotor-stator interaction between the guide-vanes and the run- ner blades sharply,leading to a sharp rise in the amplitude of the pressure fluctuations.The maximum amplitude of pressure fluctuations is more than 5times that of the initial stage.The turbulent kinetic energy of the local fluid in the vaneless space is enhanced by the backflows at the hub side of runner inlet, which make the distribution of high frequency components of pressure fluctuations along the height uneven. The backflows at runner inlet lead to non-uniform flows and rotating stall within the runner channels, which is the main reason for the rapid rises of the fluctuations of runner torque and radial force.Both their maximum amplitudes raise up to about 10times and 60times those of the initial stage;However,the influence of vortex rope in the draft tube is secondary.
作者 周勤 夏林生 张春泽 袁野 朱珠 ZHOU Qin;XIA Linsheng;ZHANG Chunze;YUAN Ye;ZHU Zhu(Chongqing Southwest Water Transport Engineering Research Institute,Chongqing Jiaotong University,Chongqing 400016,China;China Ship Development and Design Center,Wuhan 430064,China;State Key Laboratory of Water Resources and Hydropower Engineering Science,Wuhan University,Wuhan 430072,China;College of Letters and Science,University of California-Davis,Davis CA 95616,United States)
出处 《水利学报》 EI CSCD 北大核心 2018年第11期1429-1438,共10页 Journal of Hydraulic Engineering
基金 国家自然科学基金面上项目(51579187) 重庆市基础与前沿研究计划项目(cstc2016jcyjA1935 cstc2016jcyjA1937) 重庆市教委科学技术研究项目(KJ1600514 KJ1600535 KJQN201800712) 重庆交通大学内河航道整治技术交通行业重点实验室开放基金重点项目(NHHD-201501 NHHD-201505 NHHD-201513)
关键词 水泵水轮机 甩负荷 含税过渡过程 压力脉动 径向力 pump-turbine load rejection transient process pressure fluctuations unstable force
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  • 1YIN JunLian1, LIU JinTao1, WANG LeQin1, JIAO Lei1, WU DaZhuan1 & QIN DaQing2 1 Institute of Chemical Machinery, Department of Chemical and Biological Engineering, Zhejiang University, Hangzhou 310027, China,2 Harbin Institute of Large Electrical Machinery, Harbin 150001, China.Performance prediction and flow analysis in the vaned distributor of a pump turbine under low flow rate in pump mode[J].Science China(Technological Sciences),2010,53(12):3302-3309. 被引量:17
  • 2ALSTOM.2008年10月10日惠州1号机组事故专业性报告[R].
  • 3ALSTOM.惠州机组磁极绝缘框修改.
  • 4张伟.关于惠蓄工程1号机组轴系开放性破坏原因、过程及其现状咨询技术报告[R].清华大学.
  • 5[日]大岛正规 峰谷秀行.大容量发电电动机和水轮发电机的技术发展动向.东芝评论,1988,(12).
  • 6吴玉林,吴晓晶,刘树红.水轮机内部涡流与尾水管压力脉动相关性分析[J].水力发电学报,2007,26(5):122-127. 被引量:33
  • 7岗南水库工程局.政治挂帅排除万难岗南水电站提前半年发电[J].水利与电力,1960(5):35-37.
  • 8李例.我国抽水蓄能电站发展及抽水蓄能专委会工作十年回顾[C]//抽水蓄能电站工程建设文集.2005:4.6.
  • 9中国水利水电科学研究院.张河湾蓄能电站机组振动补充试验分析报告[R].内部报告.
  • 10谢宝星,杨官霞,赵毅锋等.MGV在解决低比转速水泵水轮机空载稳定性中的应用//第十八次中国水电设备学术讨论会论文集.2011.

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