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高压涡轮全环非定常流动数值模拟 被引量:3

Numerical Simulation of Full Scale Unsteady Flow in High Pressure Turbine
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摘要 为了进一步准确地掌握涡轮内部复杂流动特征,采用全环非定常数值模拟方法研究了某型高压涡轮内部非定常流动,重点分析了上游导叶尾迹和激波在动叶流动中的非定常作用机制,探讨了引起动叶通道内及叶片表面压力分布周期性变化的非定常扰动。数值结果表明:与尾迹作用相比,由导叶激波引起的非定常效应更为明显,尾迹引起的非定常扰动在动叶0.5倍轴向弦长位置下游较为突出。在动叶流场中及叶片表面上的静压变化显示,在动叶通道内还存在低频扰动,对局部流场的非定常扰动明显。最后指出,在非定常计算时采用区域缩放法对流场中非定常扰动的预测存在一定误差。 In order to study the complicate flow characteristic in the turbine,the unsteady flow was studied in high pressure turbine by the full scale unsteady flow numerical simulation.The unsteady mechanism of upstream IGV wakes and shock in the rotor flow was analyzed,and the periodically unsteady perturbation which causes the change of blade passage flow and blade surface pressure distribution was discussed.The simulation results show that the unsteady effect caused by IGV shock is more obvious,compared with the wake effect,unsteady perturbation induced by wake is more prominent in the downstream of 1/2 axial chord.The pressure distribution in the rotor flow field and on the surface of blade shows that,in the rotor flow field there is a low frequency fluctuation,which causes unsteady perturbation significantly on the local flow field.It is pointed out that certain error exists when predicting the unsteady perturbation using domain scaling method.
作者 邵飞 綦蕾 罗建桥 刘东华
机构地区 北京航空航天大学能源与动力工程学院 中航工业动力机械研究所
出处 《航空发动机》 2014年第2期31-37,共7页 Aeroengine
基金 国家自然科学基金(51106004)资助
关键词 非定常 激波 高压涡轮 上游尾迹 低频扰动 数值模拟 航空发动机 unsteady flow shock wave high pressure turbine upstream wake low frequency fluctuation numerical simulation aeroengine
分类号 V211.6 [航空宇航科学与技术—航空宇航推进理论与工程]
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参考文献15

  • 1Sharma 0 P,Pickett G F,Ni R H. Assessment of unsteady flows in turbines [J]. Journal of Turbomachinery,1992,114 ( 1 ) : 79-90.
  • 2Pollan G. Secondary flows and loss caused by blade row interaction in a turbine stage [J]. Journal of Turbomachinery, 2006, 128(3 ) :484-491.
  • 3季路成,周盛.转/静干扰效应纳入设计体系的途径探索[J].工程热物理学报,1999,20(5):580-583. 被引量:5
  • 4Casciaro C ,Treiber M, Sell M. Unsteady transport mechanisms in an axial turbine [J]. Journal of Turbomachinery,2000,122 (4):604-612.
  • 5LaGraff J E,Ashpis D E,Oldfield,et al. Unsteady flows in turbomachinery[R]. NASA-CP-2006-214484.
  • 6綦蕾.涡轮端区非定常相互作用机理及流动控制技术探讨[D].北京:北京航空航天大学.2010.
  • 7Kachel C E, Denton J D. Experimental and numerical in- vestigation of the unsteady surface pressure in a three stage model of an axial high pressure turbine[J]. Journal of Turbo ma chinery, 2004, 128 (2) : 261-272.
  • 8Giles M B. Stator rotor interaction in a transonic turbine [J]. Journal of Propulsion and Power, 1990,6( 5 ) : 621-627.
  • 9Miller R J, Moss R W, Ainsworth R W, et al. The development of turbine exit flow in a swan-necked inter stage diffuser [R]. ASME 2003-GT-38174.
  • 10Davis R L,Yao J X,Clack J P,et al. Unsteady interaction between a transonic turbine stage and downstream components [J]. International Journal of Rotating Machinery,2004,10 (6) :495-506.

二级参考文献12

  • 1徐力平.叶轮机内非定常流动和叶轮机气动力学的实验手段[G]..气动热力学发展战略研讨会专题报告汇编[C].北京,1989..
  • 2Hodson H P,Dawes W N. On the Interaction of Measured Profile Losses in Unsteady Wake-turbine Blade Interaction Studies[R]. ASME 96-GT-494,1996.
  • 3Denton J D. Loss Mechanisms in Turbomachines [R].ASME 93-GT-435,1993.
  • 4Wisler D C,Shin H W. Blade Row Interaction and Unsteady Effects in Axial-flow Compressors and Fans [R].Brussels:yon Karman Institute for Fluid Dynamics Lecture Series, 1998.
  • 5Hodson H P. Blade Row Interference Effects in Axial Turbomachinety Stages[R]. Brussels:von Karman Institute for Fluid Dynamics Lecture Series, 1998.
  • 6Denton J D. The Calculation of Three-dimensional Viscous Flow Througtl Multistage Turbomachines [J]. ASME Journal of Turbomachinery, 1992,114:18-26.
  • 7Jameson A. Time Depended Calculations Using Multi-grid with Applications to Unsteady Flows Past Airfoils and Wings[R]. AIAA 91-1596, 1991.
  • 8Ulizar I,González P. Aerodynamic Design of a New Five Stage Low Pressure Turbine for the ROLLS ROYCE TRENT 500 Turbofan[R]. ASME 2001-GT 0440.
  • 9季路成,博士学位论文,1998年
  • 10孟庆国,叶轮机转子/静子交互排列非定常流动模型探讨,1996年

共引文献10

同被引文献17

引证文献3

二级引证文献6

航空发动机
2014年 第2期

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