Matei Radulescu
Ottawa University
H-index: 31
North America-United States
Top articles of Matei Radulescu
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Model for Chapman-Jouguet deflagrations in open ended tubes with varying vent ratios | Combustion and Flame | Willstrong Rakotoarison Yohan Vilende Andrzej Pekalski Matei I Radulescu | 2024/2/1 |
Detonation attenuation and quenching in hydrogen mixtures after the interaction with cylinders | arXiv preprint arXiv:2401.08951 | Hongxia Yang Wentian Wang Farzane Zangane Kevin Cheevers Logan Maley | 2024/1/17 |
Quasi-Two-Dimensional Simulation of a Rotating Detonation Engine Combustor and Injector | Journal of Propulsion and Power | S She-Ming Lau-Chapdelaine Matei I Radulescu Zekai Hong | 2024/1 |
Critical diffraction of irregular structure detonations and their predictability from experimentally obtained D− κ data | Proceedings of the Combustion Institute | Farzane Zangene Qiang Xiao Matei Radulescu | 2023/1/1 |
Shock induced ignition and transition to detonation in the presence of mechanically induced non-linear acoustic forcing | arXiv preprint arXiv:2312.05443 | Wentian Wang James McDonald Matei Ioan Radulescu | 2023/12/9 |
Evidence for self-organized criticality (soc) in the non-linear dynamics of detonations | Proceedings of the 29th International Colloquium on Dynamics of Explosions and Reactive Systems. SNU Siheung, South Korea, paper | Matei Radulescu Aliou Sow | 2023 |
The critical conditions for the re-ignition and detonation formation from Mach reflections of curved decaying shocks | arXiv preprint arXiv:2312.04785 | Farzane Zangene Matei Radulescu | 2023/12/8 |
A one-dimensional model for accelerating deflagrations and their transition to detonations | Proceedings of the 29th International Colloquium on Dynamics of Explosions and Reactive Systems, SNU Siheung, South Korea | Willstrong Rakotoarison Hongxia Yang M Radulescu | 2023 |
Unstable gaseous detonations as a deterministic paradigm for Self-Organized Criticality | Bulletin of the American Physical Society | Matei Radulescu Aliou Sow | 2023/11/20 |
A flame technique to isolate the detonation/product interface relevant to rotating detonation engines | Proceedings of the Combustion Institute | Kevin Cheevers Hongxia Yang Mihir Raut Zekai Hong Matei Radulescu | 2023/1/1 |
The critical conditions for the formation of the Mach shock from shock reflections | Bulletin of the American Physical Society | Farzane Zangene Matei Radulescu | 2023/11/20 |
Dynamics of Chapman-Jouguet pulsating detonations with Chain-Branching kinetics: Fickett’s analogue and Euler equations | Proceedings of the Combustion Institute | Aliou Sow S-M Lau-Chapdelaine Matei I Radulescu | 2023/1/1 |
Pressure evolution from head-on reflection of high-speed deflagration in hydrogen mixtures | Hongxia Yang Wentian Wang Aliou Sow Matei Radulescu | 2023 | |
A dynamical system approach for solving the steady structure of high speed deflagrations | Proceedings of the Combustion Institute | Willstrong Rakotoarison Matei I Radulescu | 2023/1/1 |
Ignition behind decaying shock waves: Detonation cells | arXiv preprint arXiv:2211.05216 | Kevin Cheevers Matei Radulescu | 2022/11/9 |
Ray-tracking methods for characterizing the dynamics of curved detonation | Physics of Fluids | Qiang Xiao Rémy Mével Stany Gallier Matei I Radulescu | 2022/6/1 |
Dynamics of cellular flame deformation after a head-on interaction with a shock wave: reactive Richtmyer–Meshkov instability | Journal of Fluid Mechanics | Hongxia Yang Matei Ioan Radulescu | 2021/9 |
Effect of boundary layer losses on 2D detonation cellular structures | Proceedings of the Combustion Institute | Qiang Xiao Aliou Sow Brian M Maxwell Matei I Radulescu | 2021/1/1 |
Two separate decay timescales of a detonation wave modeled by the Burgers equation and their relation to its chaotic dynamics | Physical Review E | SS-M Lau-Chapdelaine MI Radulescu | 2021/8/13 |
Comment on “A model for the trajectory of the transverse detonation resulting from re-initiation of a diffracted detonation” by Yuan et al. | Shock Waves | MI Radulescu | 2021/6 |