1. A I Rybnikov, E V Simonov, A M Gurin, A V Trilis, A N Samsonov, “Three-dimensional numerical simulation of continuous spin detonation in hydrogen-oxygen and hydrogen-air mixtures using OpenFOAM package”, J. Phys.: Conf. Ser., 1404:1 (2019), 012065  crossref
  2. Qiaofeng Xie, Bing Wang, Haocheng Wen, Wei He, Piotr Wolanski, “Enhancement of continuously rotating detonation in hydrogen and oxygen-enriched air”, Proceedings of the Combustion Institute, 37:3 (2019), 3425  crossref
  3. Mohammed Niyasdeen Nejaamtheen, Jung-Min Kim, Jeong-Yeol Choi, Shock Wave and High Pressure Phenomena, Detonation Control for Propulsion, 2018, 109  crossref
  4. S. Hansmetzger, R. Zitoun, P. Vidal, “A study of continuous rotation modes of detonation in an annular chamber with constant or increasing section”, Shock Waves, 28:5 (2018), 1065  crossref
  5. Pengxin Liu, Qin Li, Zhangfeng Huang, Hanxin Zhang, “Interpretation of wake instability at slip line in rotating detonation”, International Journal of Computational Fluid Dynamics, 32:8-9 (2018), 379  crossref
  6. James Duvall, Fabian Chacon, Chadwick Harvey, Mirko Gamba, 2018 AIAA Aerospace Sciences Meeting, 2018  crossref
  7. Arnab Roy, Donald H. Ferguson, Todd Sidwell, Bridget O'Meara, Peter Strakey, Clinton Bedick, Andrew Sisler, 55th AIAA Aerospace Sciences Meeting, 2017  crossref
  8. Jung-Min Kim, Mohammed Niyasdeen, Hyung-Seok Han, Sejong Oh, Jeong-Yeol Choi, “Research Activities on PGC Propulsion based on RDE, Part I: Basic Studies”, KSPE, 21:5 (2017), 97  crossref
  9. T. Gaillard, D. Davidenko, F. Dupoirieux, “Numerical simulation of a Rotating Detonation with a realistic injector designed for separate supply of gaseous hydrogen and oxygen”, Acta Astronautica, 141 (2017), 64  crossref
  10. Brent A. Rankin, Matthew L. Fotia, Andrew G. Naples, Christopher A. Stevens, John L. Hoke, Thomas A. Kaemming, Scott W. Theuerkauf, Frederick R. Schauer, “Overview of Performance, Application, and Analysis of Rotating Detonation Engine Technologies”, Journal of Propulsion and Power, 33:1 (2017), 131  crossref
  11. Brent A. Rankin, Joshua R. Codoni, Kevin Y. Cho, John Hoke, Frederick R. Schauer, 55th AIAA Aerospace Sciences Meeting, 2017  crossref
  12. Brent A. Rankin, Daniel R. Richardson, Andrew W. Caswell, Andrew G. Naples, John L. Hoke, Frederick R. Schauer, “Chemiluminescence imaging of an optically accessible non-premixed rotating detonation engine”, Combustion and Flame, 176 (2017), 12  crossref
  13. Brent A. Rankin, Christopher A. Fugger, Daniel R. Richardson, Kevin Y. Cho, John Hoke, Andrew W. Caswell, James R. Gord, Frederick Schauer, 54th AIAA Aerospace Sciences Meeting, 2016  crossref
  14. C. A. Nordeen, D. Schwer, F. Schauer, J. Hoke, T. Barber, B. M. Cetegen, “Role of inlet reactant mixedness on the thermodynamic performance of a rotating detonation engine”, Shock Waves, 26:4 (2016), 417  crossref
  15. Adam Okninski, Jan Kindracki, Piotr Wolanski, “Rocket rotating detonation engine flight demonstrator”, Aircraft Eng & Aerospace Tech, 88:4 (2016), 480  crossref
  16. Jan Kindracki, “Experimental research on rotating detonation in liquid fuel–gaseous air mixtures”, Aerospace Science and Technology, 43 (2015), 445  crossref
  17. T. Gaillard, D. Davidenko, F. Dupoirieux, “Numerical Optimisation in Non Reacting Conditions of the Injector Geometry for a Continuous Detonation Wave Rocket Engine”, Acta Astronautica, 111 (2015), 334  crossref
  18. Frank K. Lu, Eric M. Braun, “Rotating Detonation Wave Propulsion: Experimental Challenges, Modeling, and Engine Concepts”, Journal of Propulsion and Power, 30:5 (2014), 1125  crossref
  19. J. Kindracki, “Study of detonation initiation in kerosene–oxidizer mixtures in short tubes”, Shock Waves, 24:6 (2014), 603  crossref
  20. Jan Kindracki, “Analysis of the experimental results of the initiation of detonation in short tubes with kerosene–oxidizer mixtures”, Journal of Loss Prevention in the Process Industries, 26:6 (2013), 1515  crossref
Previous
1
2
3
Next