The design and test of a two-stage, vaneless, aspirated counter-rotating fan is presented in this paper. The fan nominal design objectives were a pressure ratio of 3:1 and adiabatic efficiency of 87%. A pressure ratio of 2.9 at 89% efficiency was measured at the design speed. The configuration consists of a counter-swirl-producing inlet guide vane, followed by a high tip speed nonaspirated rotor and a counter-rotating low speed aspirated rotor. The lower tip speed and lower solidity of the second rotor result in a blade loading above conventional limits, but enable a balance between the shock loss and viscous boundary layer loss; the latter of which can be controlled by aspiration. The aspiration slot on the second rotor suction surface extends from the hub up to 80% span. The bleed flow is discharged inward through the blade hub. This fan was tested in a short duration blowdown facility. Particular attention was given to the design of the instrumentation to measure efficiency to 0.5% accuracy. High response static pressure measurements were taken between the rotors and downstream of the fan to determine the stall behavior. Pressure ratio, mass flow, and efficiency on speed lines from 90% to 102% of the design speed are presented and discussed along with comparison to computational fluid dynamics predictions and design intent. The results presented here complement those presented earlier for two aspirated fan stages with tip shrouds, extending the validated design space for aspirated compressors to include designs with conventional unshrouded rotors and with inward removal of the aspirated flow.
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April 2008
Research Papers
Design and Test of an Aspirated Counter-Rotating Fan
Jack L. Kerrebrock,
Jack L. Kerrebrock
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
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Alan H. Epstein,
Alan H. Epstein
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
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Ali A. Merchant,
Ali A. Merchant
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
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Gerald R. Guenette,
Gerald R. Guenette
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
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David Parker,
David Parker
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
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Jean-Francois Onnee,
Jean-Francois Onnee
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
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Fritz Neumayer,
Fritz Neumayer
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
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John J. Adamczyk,
John J. Adamczyk
NASA-Glenn Research Center
, Cleveland, OH 44135
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Aamir Shabbir
Aamir Shabbir
University of Toledo
, Toledo, OH 43606
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Jack L. Kerrebrock
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
Alan H. Epstein
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
Ali A. Merchant
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
Gerald R. Guenette
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
David Parker
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
Jean-Francois Onnee
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
Fritz Neumayer
Gas Turbine Laboratory,
Massachusetts Institute of Technology
, Cambridge, MA 02139
John J. Adamczyk
NASA-Glenn Research Center
, Cleveland, OH 44135
Aamir Shabbir
University of Toledo
, Toledo, OH 43606J. Turbomach. Apr 2008, 130(2): 021004 (8 pages)
Published Online: February 12, 2008
Article history
Received:
September 5, 2006
Revised:
September 6, 2006
Published:
February 12, 2008
Citation
Kerrebrock, J. L., Epstein, A. H., Merchant, A. A., Guenette, G. R., Parker, D., Onnee, J., Neumayer, F., Adamczyk, J. J., and Shabbir, A. (February 12, 2008). "Design and Test of an Aspirated Counter-Rotating Fan." ASME. J. Turbomach. April 2008; 130(2): 021004. https://doi.org/10.1115/1.2776951
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