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Volume 28 Issue 4
Apr.  2002
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Journal of Beijing University of Aeronautics and Astronautics  > 2002  >  28(4): 387-390.
DENG Bao-yang, GUI Xing-min, YUAN Wei, et al. Experimental Investigation on High-Loading Transonic Compressor Rotor[J]. Journal of Beijing University of Aeronautics and Astronautics, 2002, 28(4): 387-390. (in Chinese)
Citation: DENG Bao-yang, GUI Xing-min, YUAN Wei, et al. Experimental Investigation on High-Loading Transonic Compressor Rotor[J]. Journal of Beijing University of Aeronautics and Astronautics, 2002, 28(4): 387-390. (in Chinese)
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Experimental Investigation on High-Loading Transonic Compressor Rotor

  • 1.

    Beijing University of Aeronautics and Astronautics, Dept. of Propulsion

  • 2. Academia Sinica,Institute of Engineering Thermophysics

  • Received Date: 23 Oct 2000
  • Publish Date: 30 Apr 2002
    Abstract
  • Unsteady pressure transducers with high frequency response were used to investigate tip clearance flows in a transonic compressor rotor (ATS-2), which is a high-loading compressor with 2.2 designed pressure ratio. Static pressure contours were obtained for different operating conditions at several different speeds. It was followed that, not only an attached oblique shock emanating from the leading edge and a secondary normal shock exist in the passage at 100% speed, but also a short-range normal shock appears near the suction surface. Withclosing the outlet throttle, the shock waves move forward and finally merge into normal shock near the leading edge, meanwhile, the stage performance reaches the peak efficiency. The overall performances of ATS-2 with two different tip clearance casings were compared. It reveals that the change of casing structure and tip clearance seriously influence the performance of the compressor.

     

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    • References(1)
  • [1] Moore R D. Rotor tip clearance effects on overall and blade-element performance of axial-flow transonic fan stage. NASA TP-2049,1982. [2]Wisler D C. Loss reduction in axial-flow compressors through low-speed model testing[J]. ASME J of Turbomachinery, 1985, 107:354~363. [3]Adamczyk J J, Celestina M L, Greitzer E M. The role of tip clearance in high-speed fan stall[J]. Transactions of the ASME, Journal of Turbomachinery, 1993,115:28~39. [4]桂幸民,王同庆,于 清,等. 跨音压气机转子叶尖流场试验与分析[J]. 工程热物理学报, 1998,19(5):553~558. [5]桂幸民,聂超群,王同庆,等. 跨音压气机转子叶尖流场复杂流动观测[J]. 工程热物理学报, 2000,21(5):570~572. [6]Sellin M D, Puterbaugh S L, Copenhaver W W. Tip shock structures in transonic compressor rotors. AIAA 93-1869,1993. [7]Copenhaver W W, Mayhew E R, Hah C, et al. The effect of tip clearance on a swept transonic compressor rotor[J]. Transactions of the ASME, Journal of Turbomachinery, 1996, 118:230~239. [8]桂幸民,聂超群,王同庆,等. 跨音压气机转子叶尖复杂流动测试研究. 北航科学研究报告BH-B4937,1997. [9]Prince Jr D C. 3D shock structures for transonic/supersonic compressor rotors[J]. Journal of Aircraft, 1980, 17(1):28~37. [10] Maerz J, Gui X, Neise W. On the structure of rotating instabilities in axial flow machines. AIAA SL-047/GER-35, 1999.
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