Analysis on mixing process of tip shroud leakage flow in high-pressure stage of steam turbine

doi:10.16085/j.issn.1000-6613.2016-2377

Abstract

Abstract: A numerical calculation was attempted based on a high-pressure 1.5-stage steam turbine with rotor labyrinth seal. The variation of leakage vortex system in shroud exit cavity and the effect of main flow mixing with leakage flow on the aerodynamic characteristics of downstream stator were analyzed. Besides,the related losses generated by leakage flow were calculated. Results showed that there were large differences between main flow and leakage flow in the circumferential velocity and radial velocity. Main flow was deflected at the rotor blade exit when it mixed with the leakage flow,which led to the negative angles of incidence on the subsequent stator and the decrease of the stage efficiency. The mixing loss was the main part among the related losses generated by leakage flow. The tip clearance directly affected the size of backflow vortex which was closely related to the kinetic energy dissipation of leakage flow. Therefore,during the structure design process of the blade tip seal,it is necessary to reduce the tip clearance,enhance the disturbance of leakage flow in seal cavity,and decrease the velocity difference between leakage flow and main flow to improve the economy of steam turbine.

Key words: steam turbine, tip leakage flow, labyrinth seal, tip clearance, mixing

摘要： 对某带有高低齿汽封的汽轮机高压1.5级模型进行数值计算，分析了不同叶顶间隙下汽封出口腔内泄漏流的涡系变化以及泄漏流与主流掺混对下游静叶气动性能的影响，并定量计算了泄漏流引起的相关损失。结果表明：泄漏流与主流在周向速度和径向速度上存在较大差异，二者掺混将导致动叶出口处汽流方向发生偏转，对下游静叶产生负攻角，引起级效率的下降。在泄漏流引起的相关损失中，掺混损失占主要部分。叶顶间隙的大小直接影响汽封腔内回流涡的尺寸，回流涡与汽封腔内泄漏流动能的耗散程度密切相关。因此，在叶顶汽封设计中，应尽量减小叶顶间隙，增强密封腔内汽流扰动，减小泄漏流与主流的速度差异，以便提高汽轮机经济性。

关键词: 汽轮机, 叶顶泄漏流, 高低齿汽封, 叶顶间隙, 掺混

CLC Number:

TK263

CAO Lihua, WANG Jiaxin, LI Pan, LI Yong. 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.

曹丽华, 王佳欣, 李盼, 李勇. 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.

References

[1] DENTON J D.Loss mechanisms in turbomachines[J].ASME Journal of Turbomachinery,1993,115(4):621-656.
[2] SJOLANDER S A,AMRUD K K.Effects of tip clearance on blade loading in a planar cascade of turbine blades[J].Journal of Turbomachinery,1987,109(2):237-245.
[3] 曹丽华,李盼,胡鹏飞,等.汽轮机叶顶汽封泄漏流动的非定常数值研究[J].中国电机工程学报,2015,21(35):5542-5550. CAO L H,LI P,HU P F,et al.Numerical study on unsteady flow of tip seal leakage in steam turbine rotor cascades[J].Proceedings of the CSEE,2015,21(35):5542-5550.
[4] 李勇,胡鹏飞,曹丽华.汽轮机喷嘴内盐析颗粒分布特性[J].化工进展,2016,35(12):3771-3776. LI Y,HU P F,CAO L H.Research on the distribution characteristics of the salting-out particles in the steam turbine nozzle[J].Chemical Industry and Engineering Progress,2016,35(12):3771-3776.
[5] 栾忠兴,李勇,薛彦光,等.汽轮机静叶栅二次流损失的数值研究[J].东北电力大学学报,2012,32(2):43-47. LUAN Z X,LI Y,XUE Y G,et al.Numerical study of the secondary flow loss in steam turbine static cascade[J].Journal of Northeast Electric Power University,2012,32(2):43-47.
[6] YAMAMOTO A.Endwall flow loss mechanisms in a linear turbines cascade with blade tip clearance[J].ASME Journal of Turbomachinery,1989,111(3):264-275.
[7] LIU Y,ZHANG M,ZHANG T,et al.Effect of winglet-shroud tip with labyrinth seals on aerodynamic performance of a linear turbine cascade[J].Journal of Fluids Engineering,2016,138(7):1-8.
[8] PALMER T R,TAN C S,ZUNIGA H,et al.Quantifying loss mechanisms in turbine tip shroud cavity flows[J].Journal of Turbomachinery,2016,138(9):1-12.
[9] YOON S,VANDEPUTTE T,MISTRY H,et al.Loss audit of a turbine stage[J].Journal of Turbomachinery,2016,138(5):1-9.
[10] 陈秀秀,晏鑫,李军.蜂窝叶顶密封对透平级气动性能的影响研究[J].西安交通大学学报,2016,50(4):14-20. CHEN X X,YAN X,LI J.Effect of honeycomb shroud seals on aerodynamic performance of turbine stages[J].Journal of Xi'an Jiaotong University,2016,50(4):14-20.
[11] JUNG Y J,JEON H,JUNG Y,et al.Effects of recessed blade tips on stall margin in a transonic axial compressor[J].Aerospace Science & Technology,2016,54:41-48.
[12] PFAU A,KALFAS A I,ABHARI R S.Making use of labyrinth interaction flow[J].Journal of Turbomachinery,2007,129(1):164-174.
[13] PORRECA L,KALFAS A I,ABHARI R S.Optimized shroud design for axial turbine aerodynamic performance[J]. Journal of Turbomachinery,2008,130(3):1-12.
[14] 贾惟,刘火星.涡轮叶栅叶冠泄漏流动数值研究[J].推进技术,2013,34(3):316-325. JIA W,LIU H X.Numerical investigation on shroud leakage flow in turbine cascade[J].Journal of Propulsion Technology,2013,34(3):316-325.
[15] 李军,孙皓,罗常,等.轴流透平机械通流部分泄漏流动及控制技术研究进展[J].热力透平,2010,39(2):83-88,112. LI J,SUN H,LUO C,et al.State of the art of leakage flows in through-flow passage of axial turbomachinery and their flow controlling technology[J].Thermal Turbine,2010,39(2):83-88,112.
[16] GAO J,ZHENG Q.Comparative investigation of unsteady flow interactions in endwall regions of shrouded and unshrouded turbines[J].Computers & Fluids,2014,105:204-217.
[17] 曹丽华,贾彦铭,李盼,等.汽轮机高低齿叶顶汽封泄漏流动的数值分析[J].浙江大学学报(工学版),2016,50(8):1545-1550. CAO L H,JIA Y M,LI P,et al.Numerical analysis on leakage flow of blade tip stepped seal in steam turbine[J].Journal of Zhejiang University(Engineering Science),2016,50(8):1545-1550.
[18] GIER J,STUBERT B,BROUILLET B,et al.Interaction of shroud leakage flow and main flow in a three-stage LP turbine[J].Journal of Turbomachinery,2005,127(4):105-116.