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Warianty tytułu
Języki publikacji
Abstrakty
The impact of the bleed off-take cavity within aspirated blades on the aerodynamic perfor- mance of a highly loaded compressor cascade was explored. Three-dimensional Navier-Stokes simulations were conducted in rectangular compressor cascades after validation against expe- rimental results were done. Five different off-take configurations with varying suction loca- tion were numerically evaluated. The results show that the regularities of the suction flow distribution on the suction slot inlet greatly influence the benefits of boundary layer suction. The distribution style greatly depends not only on the flow condition of the blade passage, but also on the realization of the suction process and the geometry of the cavity inside the aspirated blade. The low kinetic fluid in the endwall region compared with that around the midspan is usually prone to be sucked into the suction slot. The distribution of the suc- tion mass flow along the spanwise direction would be symmetrical if the suction position is properly selected and the inside off-take cavity is well designed, even though the bleeding system has been simplified to be asymmetrical as employed in the present document.
Czasopismo
Rocznik
Tom
Strony
117--128
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
- State Key Laboratory of Structural Analysis for Industrial Equipment, School of Aeronautics and Astronautics, Dalian University of Technology, Dalian, China
autor
- Marine Engineering College, Dalian Maritime University, Dalian, China
autor
- AVIC Shenyang Engine Design and Resesrch Institute, Shenyang, China
autor
- State Key Laboratory of Structural Analysis for Industrial Equipment, School of Aeronautics and Astronautics, Dalian University of Technology, Dalian, China
Bibliografia
- 1. Chen F., Song Y., Chen H., Wang Z., 2006, Effects of boundary layer suction on the performance of compressor cascades, ASME Paper, GT2006-90082
- 2. Chen F., Song Y., Zhao G., Liu J., Wang Z., 2005, Effects of boundary layer suction on the performance of compressor cascade with different solidities, Journal of Engineering Thermophysics, 26, 2, 211-215
- 3. Gmelin Ch., Thiele F., Liesner K., Meyer R., 2011, Investigations of secondary flow suction in a high speed compressor cascade, ASME Paper, GT2011-46479
- 4. Guo S., Chen S., Song Y., Song Y., Chen F., 2010, Effects of boundary layer suction on aerodynamic performance in a high-load compressor cascade, Chinese Journal of Aeronautics, 23, 2, 179-186
- 5. Kerrebrock J.L., Drela M.A., Merchant A., Schuler B.J., 1998, A family of designs for aspirated compressors, ASME Paper, 98-GT-196
- 6. Kerrebrock J.L., Reijnan D.P., Ziminsky W.S., Smilg L.M., 1997, Aspirated compressors, ASME Paper, 97-GT-525, Orlando
- 7. Loughery R., Horn R.A., 1971, Single stage experimental evaluation of boundary layer blowing and bleed techniques for high lift stator blades, NASA, CR-54573
- 8. Merchant A.A., Drela M., Kerrebrock J.L., Adamczyk J.J., Celestina M., 2000, Aerodynamic design and analysis of a high pressure ratio aspirated compressor stage, ASME Paper, 2000-GT-619
- 9. Merchant A.A., Kerrebrock J.L., Adamczyk J.J., Braunscheidel E., 2004, Experimental investigation of a high pressure ratio aspirated fan stage, ASME Paper, GT2004-53679
- 10. Reijnen D.P., 1997, Experimental study of boundary layer suction in a transonic compressor, PhD Thesis, Cambridge, MA: MIT, January
- 11. Schuler B.J., Kerrebrock J.L., Merchant A.A., Drela M., Adamczyk J., 2000, Design, analysis, fabrication and test of an aspirated fan stage, ASME Paper, 2000-GT-618
- 12. Song Y., Chen F., Jang J., Wang Z., 2005, A numerical investigation of boundary layer suction in compound lean compressor cascades, ASME Paper, GT2005-68441
- 13. Wang Y., Guo R., Zhao L., Ren S., 2012, Numerical investigation on the effects of re-organized shock waves on the flow separation for a highly-loaded transonic compressor cascade, Journal of Thermal Science, 21, 1, 13-20
- 14. Wennerstrom A.J., 1990, Highly loaded axial flow compressor history and current development, Journal of Turbomachinery, 112, 567-578
- 15. Zhao S., Luo J., Lu X., Zhu J., 2010, Exploring the intention of using aspirated cascade to replace tandem cascades, Journal of Thermal Science, 19, 5, 390-396
Typ dokumentu
Bibliografia
Identyfikator YADDA
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