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Parametric Studies on Airfoil-Boundary Layer Ingestion Propulsion System

Journal Article
01-13-01-0003
ISSN: 1946-3855, e-ISSN: 1946-3901
Published March 11, 2020 by SAE International in United States
Parametric Studies on Airfoil-Boundary Layer Ingestion Propulsion System
Sector:
Citation: El-Salamony, M. and Teperin, L., "Parametric Studies on Airfoil-Boundary Layer Ingestion Propulsion System," SAE Int. J. Aerosp. 13(1):43-55, 2020, https://doi.org/10.4271/01-13-01-0003.
Language: English

References

  1. Lewandowski , C.M. , Turboelectric Distributed Propulsion in a Hybrid Wing Body Aircraft NASA Tech. Rep 1 2011 1 20
  2. Smith Jr. , L.H. Wake Ingestion Propulsion Benefit Journal of Propulsion and Power 9 1 74 82 1993
  3. Teperin , L. and Ujuhu , A. Method for Determining Pressure Drag in Aerodynamic Interference Problems TsAGI Science Journal XXI 3 3 10 1990
  4. Razov , A.A. Numerical Analysis of the Efficiency of the Location of the Propeller in a Viscous Wake Using Navier Stokes Equations TsAGI Science Journal XL 3 60 2009
  5. Kornushenko , A.V. , Kudryavtsev , O.V. , Teperin , L.L. , Teperina , L.N. , Shustov , A.V. , Orfinejad , F. , and Thein , M. Using the Principle of Useful Interference to Improve the Aerodynamic Perfection of the Layout of the Propeller and Wing TsAGI Science Journal XLVII 8 2016
  6. Teperin , L.L. , Teperina , L.N. , Orfinejad , F.E. , El-Salamony , M. , and Thein , M. Froude Model of Ideal Propeller in Inhomogeneous Flow TsAGI Science Journal XLVIII 3 2017
  7. Drela , M. Power Balance in Aerodynamic Flows AIAA Journal 47 7 1761 1771 2009
  8. H Clyde McLemore 1962
  9. Goldschmied , F.R. Aerodynamic Design of Low-Speed Aircraft with a NASA Fuselage Wake-Propeller Conf. Aircraft System, Design and Technology Meeting 1986 18 26
  10. Drela , M. Development of the D8 Transport Configuration AIAA Paper 3970 2011
  11. Carrier , G. , Atinault , O. , Grenon , R. , and Verbecke , C. Numerical and Experimental Aerodynamic Investigations of Boundary Layer Ingestion for Improving Propulsion Efficiency of Future Air Transport 31st AIAA Applied Aerodynamics Conference San Diego, CA 2013 2406
  12. El-Salamony , M. Oblique Flying Wing: Past and Future Proceedings of Extremal and Record-Breaking Aircrafts Workshop (ERBA) Russia 2016
  13. Ignatiev , S.G. , Teperina , L.N. , and El-Salamony , M. On the Performance of Propeller behind an Airfoil at Transonic Speeds TsAGI Science Journal XLVIII 3 3 10 2017
  14. El-Salamony , M. and Teperin , L. 2D Numerical Investigation of Boundary Layer Ingestion Propulsor on Airfoil 7th European Conference for Aeronautics and Space Sciences 2017
  15. Lutz , T. , Funk , P. , Jakobi , A. , and Wagner , S. Calculation of the Propulsive Efficiency for Airships with Stern Thruster 14th AIAA Lighter-than-Air Technical Committee Convention and Exhibition Akron, OH 2001 15 19
  16. Sabo , K.M. and Drela , M. Benefits of Boundary Layer Ingestion Propulsion 53rd AIAA Aerospace Sciences Meeting 2015 1667
  17. Lv , P. , Ragni , D. , Hartuc , T. , Veldhuis , L. , and Rao , A.G. Experimental Investigation of the Flow Mechanisms Associated with a Wake-Ingesting Propulsor AIAA Journal 55 1332 1342 2017
  18. Venkatesan , C. Fundamentals of Helicopter Dynamics Boca Raton, FL CRC Press 2014

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