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A Concept of a Pulse-Powered Turbine Engine with Application of Self-Acting Displacement Valves—3D Numerical Analysis

Journal Article
03-14-03-0025
ISSN: 1946-3936, e-ISSN: 1946-3944
DOI: https://doi.org/10.4271/03-14-03-0025
Published March 12, 2021 by SAE International in United States
A Concept of a Pulse-Powered Turbine Engine with Application of Self-Acting Displacement Valves—3D Numerical Analysis
Sector:
Citation: Tarnawski, P. and Ostapski, W., "A Concept of a Pulse-Powered Turbine Engine with Application of Self-Acting Displacement Valves—3D Numerical Analysis," SAE Int. J. Engines 14(3):419-437, 2021, https://doi.org/10.4271/03-14-03-0025.
Language: English

References

  1. Tarnawski , P. and Ostapski , W. Pulse Powered Turbine Engine Concept—Numerical Analysis of Influence of Different Valve Timing Concepts on Thermodynamic Performance Bulletin of the Polish Academy of Sciences 66 3 373 382 2018
  2. Tarnawski , P. Analytical Performance Evaluation of Humphrey Cycle for Turbine Engine Application Machine Dynamics Research 41 3 27 37 2017
  3. Kamiuto , K. Comparison of Basic Gas Cycles under the Restriction of Constant Heat Addition Applied Energy 83 6 583 593 2006
  4. Stathopoulos , P. Comprehensive Thermodynamic Analysis of the Humphrey Cycle for Gas Turbines with Pressure Gain Combustion Energies 11 3521 2018
  5. Brophy , C. and Roy , G. Benefits and Challenges of Pressure-Gain Combustion Systems for Gas Turbines Mechanical Engineering 131 3 54 55 2009
  6. Walraven , F. 1994
  7. Kurec , K. , Piechna , J. , and Gumowski , K. Investigations on Unsteady Flow Within a Stationary Passage of a Pressure Wave Exchanger by Means of PIV Measurements and CFD Calculations Applied Thermal Engineering 112 5 610 620 2017
  8. Li , J. , Gong , E. , Li , W. , Zhang , K. et al. 2017
  9. Akbari , P. , Tait , C. , and Brady , G. Enhancement of the Radial Wave Engine AIAA Propulsion and Energy Forum Indianapolis Aug. 19-22, 2019
  10. Akbari , P. and Nalim , M.R. Review of Recent Developments in Wave Rotor Combustion Technology Journal of Propulsion and Power 25 4 833 844 2009
  11. Labarrere , L. , Poinsot , T. , Dauptain , A. , Duchaine , F. et al. Experimental and Numerical Study of Cyclic Variations in a Constant Volume Combustion Chamber Combustion and Flame 172 49 61 2016
  12. Tarnawski , P. and Ostapski , W. Pulse Powered Turbine Engine Concept Implementing Rotating Valve Timing System: Numerical CFD Analysis Journal of Aerospace Engineering 32 3 04019017 2018
  13. Tarnawski , P. 2018
  14. Tarnawski , P. 2018
  15. Vagani , M. , Pohorelsky , L. , Sun , G. , Alemu , D. et al. Wave Disc Engine Concept For Micro Power Generation Proceedings of Power MEMS University of Maryland 530 533 2009
  16. ® 2016
  17. 2020 www.garrettmotion.com/wp-content/uploads/2019/10/GAM_Turbo-Tech-103_Expert-1.pdf
  18. Derlukiewicz , D. 2006
  19. Wikipedia, “General Electric T700,” Cited Sept. 23, 2017, https://en.wikipedia.org/wiki/General_Electric_T700
  20. http://www.geocities.jp/nomonomo2007/AircraftDatabase/AWdata/AviationWeekPages/GTEnginesAWJan2008.pdf 2008
  21. Kurec , K. , Piechna , J. , and Müller , N. Numerical Investigation of the Micro Radial Disk Internal Combustion Engine Archivum Combustionis 34 1 1 25 2014
  22. Piechna , J. Micro Ring-Engine Numerical Fluid Dynamics Analysis Archivum Combustionis 34 1 1 26 2014

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