The inception and evolution of rotating stall in a high-speed centrifugal compressor are characterized during speed transients. Experiments were performed in the single stage centrifugal compressor (SSCC) facility at Purdue University and include speed transients from subidle to full speed at different throttle settings while collecting transient performance data. Results show a substantial difference in the compressor transient performance for accelerations versus decelerations. This difference is associated with the heat transfer between the flow and the hardware. The heat transfer from the hardware to the flow during the decelerations locates the compressor operating condition closer to the surge line and results in a significant reduction in surge margin during decelerations. Additionally, data were acquired from fast-response pressure transducers along the impeller shroud, in the vaneless space, and along the diffuser passages. Two different patterns of flow instabilities, including mild surge and short-length-scale rotating stall, are observed during the decelerations. The instability starts with a small pressure perturbation at the impeller leading edge (LE) and quickly develops into a single-lobe rotating stall burst. The stall cell propagates in the direction opposite of impeller rotation at approximately one-third of the rotor speed. The rotating stall bursts are observed in both the impeller and diffuser, with the largest magnitudes near the diffuser throat. Furthermore, the flow instability develops into a continuous high frequency stall and remains in the fully developed stall condition.
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December 2017
Research-Article
Stall Inception in a High-Speed Centrifugal Compressor During Speed Transients
Fangyuan Lou,
Fangyuan Lou
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: louf@purdue.edu
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: louf@purdue.edu
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John C. Fabian,
John C. Fabian
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: fabian@purdue.edu
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: fabian@purdue.edu
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Nicole L. Key
Nicole L. Key
Professor
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: nkey@purdue.edu
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: nkey@purdue.edu
Search for other works by this author on:
Fangyuan Lou
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: louf@purdue.edu
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: louf@purdue.edu
John C. Fabian
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: fabian@purdue.edu
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: fabian@purdue.edu
Nicole L. Key
Professor
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: nkey@purdue.edu
Department of Mechanical Engineering,
Purdue University,
500 Allison Road,
West Lafayette, IN 47907
e-mail: nkey@purdue.edu
Contributed by the International Gas Turbine Institute (IGTI) of ASME for publication in the JOURNAL OF TURBOMACHINERY. Manuscript received August 15, 2017; final manuscript received August 17, 2017; published online September 26, 2017. Editor: Kenneth Hall.
J. Turbomach. Dec 2017, 139(12): 121004 (10 pages)
Published Online: September 26, 2017
Article history
Received:
August 15, 2017
Revised:
August 17, 2017
Citation
Lou, F., Fabian, J. C., and Key, N. L. (September 26, 2017). "Stall Inception in a High-Speed Centrifugal Compressor During Speed Transients." ASME. J. Turbomach. December 2017; 139(12): 121004. https://doi.org/10.1115/1.4037759
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