| 1 |
Experimental investigation on a rotating detonation cycle with burned gas backflow
Matsuoka K, Tanaka M, Noda T, Kawasaki A, Kasahara J
Combustion and Flame, 225, 13, 2021 |
| 2 |
Combustion mode and wave multiplicity in rotating detonative combustion with separate reactant injection
Zhao MJ, Cleary MJ, Zhang HW
Combustion and Flame, 225, 291, 2021 |
| 3 |
Experimental study of perforated-wall rotating detonation combustors
Wen HC, Wang B
Combustion and Flame, 213, 52, 2020 |
| 4 |
Performance analysis of a rotating detonation combustor based on stagnation pressure measurements
Bach E, Stathopoulos P, Paschereit CO, Bohon MD
Combustion and Flame, 217, 21, 2020 |
| 5 |
Effect of inlet and outlet boundary conditions on rotating detonation combustion
Bluemner R, Bohon MD, Paschereit CO, Gutmark EJ
Combustion and Flame, 216, 300, 2020 |
| 6 |
Experimental and numerical research on rotating detonation combustor under non-premixed conditions
Jin S, Qi L, Zhao NB, Zheng HT, Meng QY, Yang JL
International Journal of Hydrogen Energy, 45(16), 10176, 2020 |
| 7 |
Numerical investigation of wavelet features in rotating detonations with a two-step induction-reaction model
Teng HH, Zhou L, Yang PF, Jiang ZL
International Journal of Hydrogen Energy, 45(7), 4991, 2020 |
| 8 |
Numerical investigation on H-2/Air non-premixed rotating detonation engine under different equivalence ratios
Zheng HT, Meng QY, Zhao NB, Li ZM, Deng FQ
International Journal of Hydrogen Energy, 45(3), 2289, 2020 |
| 9 |
Investigation of rotating detonation fueled by a methane-hydrogen-carbon dioxide mixture under lean fuel conditions
Yang XK, Song FL, Wu Y, Zhong YP, Xu SD
International Journal of Hydrogen Energy, 45(41), 21995, 2020 |
| 10 |
Numerical simulation of wave mode transition in rotating detonation engine with OpenFOAM
Xia ZJ, Luan MY, Liu XY, Wang JP
International Journal of Hydrogen Energy, 45(38), 19989, 2020 |
