以某汽轮机级为研究对象,采用三维非定常数值模拟的方法,研究了动叶顶部汽封泄漏涡的涡动特性和泄漏涡影响下汽封腔室内的压力脉动规律。结果表明:叶顶汽封腔室内存在周向螺旋状涡与壁角涡组成的多尺度涡系,涡系的位置和影响范围会随时间经历复杂的变化。叶顶汽封腔室内的压力脉动频率中兼具叶轮旋转的周期性频率和溃散为小尺度涡结构后的高频率。间隙内的多尺度涡结构和动静叶间交替变化的压力场在汽封间隙内的传播是引起汽封腔室内周向压力不均的主要原因。
Abstract
Taking one stage of a steam turbine as the research object, a three-dimensional unsteady numerical simulation was adopted to analyse the leakage vortex characteristics of rotor tip labyrinth seals.The pressure fluctuation in labyrinth seal cavities affected by leakage vortexes was also studied.The results show that there are multi-scale vortices in the labyrinth seal cavities, which are composed of circumferential spiral vortexes and wall vortexes.The position and the influence range of the vortexes experience complicated changes over time.The frequencies of pressure fluctuation in tip seal cavities contain both the blade passing frequency and the high frequency induced by the tip leakage flow dispersing into small scale vortexes.The uneven circumferential pressure in tip seal cavities is caused by the multi-scale vortex structure of the tip seal leakage flow and the spread of alternately changing pressure field between the stator and rotor blades in the tip clearance.
关键词
汽轮机 /
泄漏涡 /
压力脉动 /
叶顶汽封 /
数值模拟
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Key words
steam turbine /
leakage vortex /
pressure fluctuation /
tip labyrinth seal /
numerical simulation
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参考文献
[1] 黄若,张威力,邢卫东,等.气流激振对球轴承涡轮增压器转子动力学特性的影响[J].振动与冲击,2014,33(19):140-146.
HUANG Ruo, ZHANG Weili, XING Weidong, et al. Gas excitation’s influence on dynamic behavior of a turbocharger rotor-ball bearing system[J]. Journal of Vibration and Shock, 2014,33(19):140-146.
[2] Gao Jie,Zheng Qun,Xu Tianbang,et al.Inlet conditions effect on tip leakage vortex breakdown in unshrouded axial turbines[J].Energy,2015,91:255-263.
[3] Joo Hong Cheon,Sang Woo Lee.Tip leakage aerodynamics over the cavity squealer tip equipped with full coverage winglets in a turbine cascade[J].International Journal of Heat and Fluid Flow,2015,56:60-70.
[4] Richard W,David Gregory-Smith,Li He,et al.Experiments and computations on large tip clearance effects in a linear cascade[J].Journal of Turbomachinery,2010,132:181-189.
[5] 周治华,陈绍文,兰云鹤,等.叶顶间隙对某涡轮级流场及气动性能影响的数值研究[J].中国电机工程学报,2015,35(5):1176-1182.
ZHOU Zhihua, CHEN Shaowen, LAN Yunhe, et al. Numerical investigation on the effect of tip clearance on a turbine stage flow-field and aerodynamic performance[J]. Proceedings of the CSEE, 2015, 35(5):1176-1182.
[6] 丁磊,何立东,李金波.叶顶吸气效应抑制叶片振动的研究[J].振动与冲击,2010,29(6):121-124.
DING Lei, HE Lidong, LI Jinbo. Suction effect on suppressing blade vibration[J]. Journal of Vibration and Shock, 2010,29(6):121-124.
[7] Wallis A M,Denton J D,Demargne A A J.The control of shroud leakage flows to reduce aerodynamic losses in a low aspect ratio,shrouded axial flow turbine[J].Journal of Turbomachinery,2000,123(2):334~341.
[8] Wei Jia,Huoxing Liu.Computational study of the effect of shroud geometric variation on turbine performance in a 1.5-stage high-loaded turbine[J].Journal of Thermal Science,2013,22(5):439~446.
[9] 曹丽华,王佳欣,李盼,等.汽轮机高压级叶顶间隙泄漏流的掺混作用分析[J].化工进展,2017,36(08):2859-2865.
CAO Lihua, WANG Jiaxin, LI Pan, et al. Analysis on mixing process of tip shroud leakage flow in high-pressure stage of steam turbine[J]. Chemical industry and engineering progress, 2017, 36(08):2859-2865.
[10] A. Pfau,A. I. Kalfas,R. S. Abhari.Making use of labyrinth interaction flow[J].Journal of Turbomachinery,2007,129(1):164~174.
[11] 高杰,郑群,李义进.动叶顶部蜂窝面迷宫密封对涡轮级气动性能的影响[J].航空动力学报,2012,27(1):160-168.
GAO Jie, ZHENG Qun, LI Yijin, et al. Effect of labyrinth-honeycomb seal of shrouded rotor blades on the aerodynamic performance of the turbine stage[J]. Journal of Aerospace Power, 2012, 27(1):160-168.
[12] Hao Sun,Jun Li,Zhenping Feng.Effects of tip clearance on unsteady flow characteristics in an axial turbine stage.Proceedings of ASME Turbo Expo,Orlando,2009.131~139.
[13] You D,Mittal R,Wang M,et al.Computational methodology for large-Eddy simulation of tip-clearance Flows[J].AIAA Journal,2004,42:271–279.
[14] Mehmet Mersinligil,Jean-Francois Brouckaert,Julien Desset.First unsteady pressure measurements with a fast response cooled total pressure probe in high temperature gas turbine environments[C]//Proceedings of ASME Turbo Expo 2010: Power for Land, Sea, and Air,Glasgow,UK,2010
[15] Liu Bo,Hou Weimin,Ma Changyou,et al.Measurement and analysis of tip clearance unsteady flow spectrum in axial-flow fan rotor[J].Frontiers of Energy and Power Engineering in China,2008,2 (4):448-452.
[16] 凌代军,姜正礼,仲永兴.平面叶栅非定常流动试验方法研究[J].燃气涡轮试验与研究,2006,19(3):24-36.
LING Daijun, JIANG Zhengli, ZHONG Yongxing. Experimental procedure study on unsteady flow in plane cascade[J]. Gas Turbine Experiment and Research, 2006, 19(3):24-36.
[17] 宋希杰,刘超,杨帆,等.进水漩涡诱发轴流泵压力脉动的试验研究[J].振动与冲击,2018,37(17):25-31.
SONG Xijie, LIU Chao, YANG fan, et al. Tests for inlet vortex-induced pressure fluctuation of an axial flow pump[J]. Journal of Vibration and Shock, 2018, 37(17):25-31.
[18] A.Pfau.Loss mechanisms in labyrinth seals of shrouded axial turbines[D].Swiss Federal Institute of Technology Zurich,2003:57-81.
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