轴流压气机转子尖部三维复杂流动Ⅱ——数值模拟研究

流体力学、飞行力学与发动机

本期目录 | 过刊浏览 | 高级检索

前一篇 | 后一篇

轴流压气机转子尖部三维复杂流动Ⅱ——数值模拟研究

于贤君，刘宝杰，蒋浩康

北京航空航天大学航空发动机热动力国防重点实验室

收稿日期:2008-11-19 修回日期:2009-04-01 出版日期:2010-01-25 发布日期:2010-01-25
通讯作者: 于贤君

Three-dimensional Flows near Rotor Tip in an Axial Compressor Ⅱ—Numerical Simulation Study

Yu Xianjun, Liu Baojie, Jiang Haokang

National Key Laboratory of Aero-engines, Beijing University of Aeronautics and Astronautics

Received:2008-11-19 Revised:2009-04-01 Online:2010-01-25 Published:2010-01-25
Contact: Yu Xianjun

摘要/Abstract

摘要： 在实验研究和理论分析的基础上，对亚声速压气机转子尖部复杂流动做了数值模拟研究，旨在进一步深入研究叶尖间隙和进口总压分布对转子叶尖复杂流动的影响。首先通过对与实验条件相同的转子尖部复杂流动的数值模拟研究，校验了数值模拟结果，并分析了转子尖部复杂流动速度场、压力场和涡量场分布特性。然后通过改变叶尖间隙尺度和进口总压分布，研究了二者对近叶尖复杂流动的影响。研究结果表明:当叶尖间隙小于1％叶片弦长时角区旋涡的发展是导致转子失速的关键；而当叶尖间隙大于2％叶片弦长时叶尖泄漏涡的发展是导致转子失速的关键；改变进口总压分布可以合理地组织转子尖部流动并扩大转子工作裕度。此外，通过观测近叶片吸力面二维涡线的发展趋势可以判断叶尖复杂流动的发展状态。

关键词: 叶尖泄漏涡, 角区旋涡, 二次流, 数值模拟, 压气机

Abstract: Based on experimental and theoretical studies of the three-dimensional rotor tip flows in a low-speed axial compressor, numerical simulation studies are conducted to clarify the effects of the changing tip clearance sizes and total inlet pressure distributions on the rotor tip flows. First, numerical simulation is conducted with the same geometry and boundary conditions as those in the experimental investigation, and the simulated results are validated by the experimental results. Further studies of the near tip flows are conducted by analyzing the simulated velocity, vorticity and static pressure fields. Then, by changing the tip clearance sizes and total inlet pressure distributions, numerical simulation is performed again and the near tip flows are analyzed in detail. The results show that when the tip clearance is smaller than 1% of the blade chord, the evolution of the corner vortex determines the stability of the rotor; however, as the tip clearance increases to 2% of the blade chord, the tip leakage vortex becomes the key flow structure. Moreover, it is found that the evolution procedure of the near suction surface two-dimensional vortex lines has a close relationship with the rotor tip flows.

Key words: tip leakage vortex, corner vortex, secondary flow, numerical simulation, compressor

中图分类号:

V231.3

于贤君;刘宝杰;蒋浩康. 轴流压气机转子尖部三维复杂流动Ⅱ——数值模拟研究[J]. 航空学报, 2010, 31(1): 58-69.

Yu Xianjun;Liu Baojie;Jiang Haokang. Three-dimensional Flows near Rotor Tip in an Axial Compressor Ⅱ—Numerical Simulation Study[J]. ACTA AERONAUTICAET ASTRONAUTICA SINICA, 2010, 31(1): 58-69.

参考文献

［1］Smith L H, Jr. Axial compressor aerodesign evolution at general electric［J］. Journal of Turbomachinery, 2002, 124(3): 321-330. ［2］陈懋章. 叶轮机气动研究现状与发展趋势［C］∥航空百年动力分论坛大会报告. 2003. Chen Maozhang. Present status and future development of the studies for turbomachinery aerodynamnics［C］∥Forum of 100th Anniversary for Aeronautics—Jet Propulsion. 2003. (in Chinese) ［3］Lakshminarayana B. Fluid dynamics and heat transfer of turbomachinery［M］. New York: John Wiley & Sons Inc., 1996. ［4］Day I J. Stall inception in axial flow compressors［J］. Journal of Turbomachinery, 1993, 115(1): 1-9. ［5］Tan C S. Three dimensional flows and tip clearance in axial compressors［C］∥VKI Lecture Series “Advances in Axial Compressor Aerodynamics”. 2006. ［6］杨策, 马朝臣, 王延生, 等. 透平机械叶尖间隙流场研究的进展［J］. 力学进展, 2001, 31(1): 70-83. Yang Ce, Ma Chaochen, Wang Yansheng, et al. A review of studies on turbomachinery tip gap leakage flow［J］. Advances in Mechanics, 2001, 31(1): 70-83. (in Chinese) ［7］刘宝杰, 邹正平, 严明, 等. 叶轮机计算流体动力学技术现状与发展趋势［J］. 航空学报, 2002, 23(5): 394-404. Liu Baojie, Zou Zhengping, Yan Ming, et al. Present status and future development of CFD in turbomachinery［J］. Acta Aeronautica et Astronautica Sinica, 2002, 23(5): 394-404. (in Chinese) ［8］刘波, 南向谊, 陈云永. 附面层抽吸对转子激波结构和分离流动的影响［J］. 航空学报, 2008, 29(2): 315-320. Liu Bo, Nan Xiangyi, Chen Yunyong. Effects of BLS on the shockwave structure and separation flow of fan rotor ［J］. Acta Aeronautica et Astronautica Sinica, 2008, 29(2): 315-320. (in Chinese) ［9］邓向阳, 张宏武, 黄伟光. 低速轴流压气机中前后静叶对动叶顶部区域流动的影响［J］. 航空学报,2005, 26(5): 535-539. Deng Xiangyang, Zhang Hongwu, Huang Weiguang. Effeets of upstream and downstream stators on rotor tip flow in a low-speed axial compressor［J］. Acta Aeronautica et Astronautica Sinica, 2005, 26(5): 535-539. (in Chinese) ［10］Qiang X Q, Wang S T, Feng G T, et al. Aerodynamic design and analysis of a low-reaction axial compressor stage［J］. Chinese Journal of Aeronautics, 2008, 21(1): 1-7. ［11］于贤君，刘宝杰，蒋浩康. 压气机转子尖部三维复杂流动Ⅰ——实验和理论研究［J］. 航空学报, 2010, 31(1): 48-57. Yu Xianjun, Liu Baojie, Jiang Haokang. Three-dimensional flows near the rotor tip in an axial compressor Ⅰ——experimental and theoretical studies［J］. Acta Aeronautica et Astronautica Sinica, 2010, 31(1): 48-57. (in Chinese) ［12］Liu B J, Yu X J, Liu H X, et al. Application of SPIV in turbomachinery［J］. Experiments in Fluids, 2006, 40(4): 621-642. ［13］Yu X J, Liu B J. Stereoscopic PIV measurement of unsteady flows in an axial compressor stage［J］. Experimental Thermal and Fluid Science, 2007, 31(8): 1049-1060.

E-mail：hkxb@buaa.edu.cn

关于我们

期刊社服务

专业学科

封面文章

友情链接

主管单位：中国科学技术协会主办单位：中国航空学会北京航空航天大学

[1]	安利平, 王昊, 王掩刚, 朱自环. 跨声速压气机湿压缩性能及流动特性[J]. 航空学报, 2022, 43(9): 126024-126024.
[2]	夏侯唐凡, 陈江涛, 邵志栋, 吴晓军, 刘宇. 随机和认知不确定性框架下的CFD模型确认度量综述[J]. 航空学报, 2022, 43(8): 25716-025716.
[3]	王昊, 薛飞, 岳少原, 王掩刚. 对转压气机变转速比失速类型试验[J]. 航空学报, 2022, 43(7): 125596-125596.
[4]	杨建凯, 顾冬冬, 葛庆, 檀晨晨, 文雨. 铝合金激光增材制造支撑布局及精确成形机制[J]. 航空学报, 2022, 43(4): 525331-525331.
[5]	舒博文, 杜一鸣, 高正红, 夏露, 陈树生. 典型航空分离流动的雷诺应力模型数值模拟[J]. 航空学报, 2022, 43(11): 526385-526385.
[6]	姜有旭, 李杰, 杨钊. 某层流机翼验证机风洞试验数据修正方法[J]. 航空学报, 2022, 43(11): 526814-526814.
[7]	桂幸民, 金东海, 张健成, 宋满祥, 赵洋, 胡大权. 计及叶片前缘周向不均匀源项的弯掠叶片流动机理[J]. 航空学报, 2022, 43(10): 527371-527371.
[8]	段俊亦, 童福林, 李新亮, 刘洪伟. 压缩-膨胀湍流边界层平均摩阻分解[J]. 航空学报, 2022, 43(1): 625915-625915.
[9]	刘朋欣, 袁先旭, 孙东, 傅亚陆, 李辰. 高温化学非平衡湍流边界层直接数值模拟[J]. 航空学报, 2022, 43(1): 124877-124877.
[10]	赵乐, 王维, 张乐福, 王伟超, 卢金玲, 楚武利. 变转速下跨声速压气机的耦合扩稳方法[J]. 航空学报, 2022, 43(1): 124942-124942.
[11]	沈鹏飞, 刘朋欣, 孙东, 袁先旭. 马赫6柱-裙构型激波/湍流边界层干扰摩阻统计特性[J]. 航空学报, 2022, 43(1): 626005-626005.
[12]	刘朋欣, 袁先旭, 梁飞, 李辰, 孙东. 高温化学非平衡湍流边界层脉动量象限分析[J]. 航空学报, 2021, 42(S1): 726338-726338.
[13]	鲍俊, 王瑜, 牛潜, 朱锡冬, 程建杰. 喷雾液滴撞击液膜影响参数及流动机理分析[J]. 航空学报, 2021, 42(S1): 726360-726360.
[14]	陈崇沛, 梁剑寒, 关清帝, 高天运. 守恒型可压缩一维湍流方法及其在超声速标量混合层中的应用[J]. 航空学报, 2021, 42(S1): 726364-726364.
[15]	李青, 涂国华, 余钊圣, 林昭武, 李婷婷, 袁先旭. 惯性颗粒在非均匀加速流中的输运问题[J]. 航空学报, 2021, 42(S1): 726390-726390.

轴流压气机转子尖部三维复杂流动Ⅱ——数值模拟研究

Three-dimensional Flows near Rotor Tip in an Axial Compressor Ⅱ—Numerical Simulation Study

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价