ProfessorsProfessors of Ottawa UniversityMatei Radulescu

Matei Radulescu

Ottawa University

H-index: 31

North America-United States

About Matei Radulescu

Matei Radulescu, With an exceptional h-index of 31 and a recent h-index of 23 (since 2020), a distinguished researcher at Ottawa University, specializes in the field of fluid mechanics, combustion, detonation, shock waves, explosion.

His recent articles reflect a diverse array of research interests and contributions to the field:

Model for Chapman-Jouguet deflagrations in open ended tubes with varying vent ratios

Detonation attenuation and quenching in hydrogen mixtures after the interaction with cylinders

Quasi-Two-Dimensional Simulation of a Rotating Detonation Engine Combustor and Injector

Critical diffraction of irregular structure detonations and their predictability from experimentally obtained D− κ data

Shock induced ignition and transition to detonation in the presence of mechanically induced non-linear acoustic forcing

Evidence for self-organized criticality (soc) in the non-linear dynamics of detonations

The critical conditions for the re-ignition and detonation formation from Mach reflections of curved decaying shocks

A one-dimensional model for accelerating deflagrations and their transition to detonations

Matei Radulescu Information

University	Ottawa University
Position	Professor of Mechanical Engineering
Citations(all)	3373
Citations(since 2020)	1794
Cited By	2275
hIndex(all)	31
hIndex(since 2020)	23
i10Index(all)	62
i10Index(since 2020)	46
Email	Access Email
University Profile Page	Ottawa University
Google Scholar	View Google Scholar Profile

Matei Radulescu Skills & Research Interests

fluid mechanics

combustion

detonation

shock waves

explosion

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