Try Mobilus Beta
Search tips
 This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Using Numerical Simulation to Obtain Length of Constant Area Section in Scramjet Combustor

Journal Article
01-13-01-0004
ISSN: 1946-3855, e-ISSN: 1946-3901
DOI: https://doi.org/10.4271/01-13-01-0004
Published March 16, 2020 by SAE International in United States
Using Numerical Simulation to Obtain Length of Constant Area Section in Scramjet Combustor
Sector:
Citation: Barpande, G., Singh, A., and Pavithran, S., "Using Numerical Simulation to Obtain Length of Constant Area Section in Scramjet Combustor," SAE Int. J. Aerosp. 13(1):57-74, 2020, https://doi.org/10.4271/01-13-01-0004.
Language: English

References

  1. Ben-Yakar , A. and Hanson , R.K. Cavity Flame-Holders for Ignition and Flam Stabilization in Scramjets: An Overview Journal of Propulsion and Power 17 4 869 877 July-August 2001
  2. Yu , G. , Li , J.G. , Zhang , X.Y. , and Chen , L.H. Experimental Investigation on Flame holding Mechanism and Combustion Performance in Hydrogen-Fuelled Supersonic Combustors Combustion Science and Technology (Taylor & Francis online) 174 3 1 27 March 2002
  3. Edward , T.C. Scramjet Engines: The First Forty Years Journal of Propulsion and Power 17 6 1138 1148 November-December 2001
  4. O’Byrne , S. et al. Analysis of Transient Thermal Choking Processes in a Model Scramjet Engine Journal of Propulsion and Power 16 5 808 814 September-October 2000
  5. Miyazato , Y. and Mitsuharu , M.K.M. One Dimensional Analysis of Thermal Choking in Case of Heat Addition in Ducts Journal of Thermal Science 9 3 224 229 2000
  6. Billig , F.S. Research On Supersonic Combustion Journal of Propulsion and Power 9 4 499 514 July-Aug 1993
  7. Tomioka , S. , Murakami , A. , Kudo , K. , and Mtani , T. Combustion Tests of Staged Supersonic Combustor with a Strut Journal of Propulsion and Power 17 2 293 300 March-April 2001
  8. Birzer , C. and Doolan , C.J. Quasi-One Dimensional Modeling of Hydrogen Fuel Scramjet Combustors Journal of Propulsion and Power 25 6 1220 1225 2009
  9. Chakraborty , D. , Paul , P.J. , and Mukunda , H.S. “ Evaluation of Combustion Models for High Speed H2/Air Confined Mixing Layer Using DNS Data Combustion and Flame 121 195 209 2000
  10. Kumaran , K. and Babu , V. Investigation of the Effect of Chemistry Models on the Numerical Predictions of the Supersonic Combustion of Hydrogen Combustion and Flame 156 826 841 2009
  11. Pandey , K.M. and Sivasakthivel , T. CFD Analysis of Mixing and Combustion of a Scramjet Combustor with a Planer Strut Injector International Journal of Environmental Science and Development 2 2 102 108 April 2011
  12. Chandra Murty , M.S.R. , Mishal , R.D. , and Chakraborty , D. Numerical Simulation of Supersonic Combustion with Parallel Injection of Hydrogen Fuel Defence Science Journal 60 5 465 475 September 2010
  13. Bourgoing , A. and Reijasse , P. Experimental Analysis of Unsteady Separated Flows in a Supersonic Planar Nozzle Shock Waves 14 4 251 258 2005 10.1007/s00193-005-0269-2
  14. Tretyakov , P.K. The Problems of Combustion at Supersonic Flow West-East High Speed Flow Field Conference Moscow, Russia November 19-22, 2007
  15. Riggins , David , et al. “ Thermodynamic, Analysis of Dual-Mode Scramjet Engine Operation and Performance American Institute of Aeronautics and Astronautics (AIAA) 14th AIAA/AHI Space Planes and Hypersonic Systems and Technologies Conference AIAA 2006-8059 Canberra, Australia
  16. Heiser , W.H. et al. Simulating Heat Addition Via Mass Addition in Constant Area Compressible Flows AIAA J 33 1 167 171 1995

Cited By