Laser-Doppler-Velocimetry Measurements in a Cascade of Compressor Blades at Stall-Reference-Cited by-同舟云学术

Laser-Doppler-Velocimetry Measurements in a Cascade of Compressor Blades at Stall

Published:1998-01-01 Issue:1 Volume:120 Page:170-178
ISSN:0889-504X
Container-title:Journal of Turbomachinery
language:en
Short-container-title:

Author:

Hobson G. V.¹,Williams A. J. H.¹,Ganaim Rickel H. J.¹

Affiliation:

1. Department of Aeronautics and Astronautics, Turbopropulsion Laboratory, Naval Postgraduate School, Monterey, CA 93943

Abstract

Compressor stall was simulated in the Low-Speed Cascade Wind Tunnel at the Turbopropulsion Laboratory of the Naval Postgraduate School. The test blades were of controlled-diffusion design with a solidity of 1.67, and stalling occurred at 10 deg of incidence above the design inlet air angle. All measurements were taken at a flow Reynolds number, based on chord length, of 700,000. Laser-sheet flow visualization techniques showed that the stalling process was unsteady and occurred over the whole cascade. Detailed laser-Doppler-velocimetry measurements over the suction side of the blades showed regions of continuous and intermittent reverse flow. The measurements of the continuous reverse flow region at the leading edge were the first data of their kind in the leading edge separation bubble. The regions of intermittent reverse flow, measured with laser-Doppler velocimeter, corresponded to the flow visualization studies. Blade surface pressure measurements showed a decrease in normal force on the blade, as would be expected at stall. Data are presented in a form that characterizes the unsteady positive and negative velocities about their mean, for both the continuous reverse flow regions and the intermittent reverse flow regions.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/turbomachinery/article-pdf/120/1/170/5657972/170_1.pdf

Reference8 articles.

1. Armstrong, J. H., 1990, “Near-Stall Loss Measurements in a C-D Compressor Cascade With Exploratory Leading Edge Flow Control,” Master of Science in Engineering, Thesis, Naval Postgraduate School, Monterey, CA.

2. Dreon, J. W., 1986, “Controlled Diffusion Compressor Blade Wake Measurements,” Master of Science in Engineering, Thesis, Naval Postgraduate School, Monterey, CA.

3. Ganaim Rickel, J., 1994, “Laser-Doppler Velocimetry Measurements and Flow Visualization in a Cascade of Controlled-Diffusion Compressor Blades at Stall,” Master of Science in Engineering, Thesis, Naval Postgraduate School, Monterey, CA.

4. Hobson G. V. , and ShreeveR. P., 1993, “Inlet Turbulence Distortion and Viscous Flow Development in a Controlled-Diffusion Compressor Cascade at Very High Incidence,” AIAA Journal of Propulsion and Power, Vol. 9, No. 3, pp. 397–407.

5. Sanger N. L. , and ShreeveR. P., 1986, “Comparison of Calculated and Experimental Cascade Performance for Controlled-Diffusion Compressor Stator Blading,” ASME JOURNAL OF TURBOMACHINERY, Vol. 108, pp. 42–50.

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