Sergey Kudriakov
Sergey Kudriakov
research engineer
Verified email at
Cited by
Cited by
The TONUS CFD code for hydrogen risk analysis: physical models, numerical schemes and validation matrix
S Kudriakov, F Dabbene, E Studer, A Beccantini, JP Magnaud, H Paillère, ...
Nuclear Engineering and Design 238 (3), 551-565, 2008
Numerical study of the near-field of highly underexpanded turbulent gas jets
A Velikorodny, S Kudriakov
International journal of hydrogen energy 37 (22), 17390-17399, 2012
A unified coordinate system for solving the three-dimensional Euler equations
WH Hui, S Kudriakov
Journal of Computational Physics 172 (1), 235-260, 2001
Particles-induced turbulence: A critical review of physical concepts, numerical modelings and experimental investigations
G Gai, A Hadjadj, S Kudriakov, O Thomine
Theoretical and Applied Mechanics Letters 10 (4), 241-248, 2020
A simplified model of Passive Containment Cooling System in a CFD code
XW Jiang, E Studer, S Kudriakov
Nuclear Engineering and Design 262, 579-588, 2013
Numerical simulations of a transient injection flow at low Mach number regime
A Beccantini, E Studer, S Gounand, JP Magnaud, T Kloczko, C Corre, ...
International journal for numerical methods in engineering 76 (5), 662-696, 2008
Role of coordinates in the computation of discontinuities in one-dimensional flow
WH Hui, S Kudriakov
Vented explosion of hydrogen/air mixture: An intercomparison benchmark exercise
E Vyazmina, S Jallais, L Krumenacker, A Tripathi, A Mahon, J Commanay, ...
international journal of hydrogen energy 44 (17), 8914-8926, 2019
Combustion modeling in large scale volumes using EUROPLEXUS code
A Velikorodny, E Studer, S Kudriakov, A Beccantini
Journal of Loss Prevention in the Process Industries 35, 104-116, 2015
Modeling of particle cloud dispersion in compressible gas flows with shock waves
G Gai, O Thomine, A Hadjadj, S Kudriakov
Physics of Fluids 32 (2), 2020
An inter-comparison exercise on engineering models capabilities to simulate hydrogen vented explosions
S Jallais, S Kudriakov
Hydrogen Knowledge Centre, 2013
Hydrogen and fuel cell stationary applications: key findings of modelling and experimental work in the HYPER project
S Brennan, A Bengaouer, M Carcassi, G Cerchiara, G Evans, A Friedrich, ...
International Journal of Hydrogen Energy 36 (3), 2711-2720, 2011
Numerical study on laminar flame velocity of hydrogen-air combustion under water spray effects
G Gai, S Kudriakov, B Rogg, A Hadjadj, E Studer, O Thomine
International Journal of Hydrogen Energy 44 (31), 17015-17029, 2019
Influence of initial pressure on hydrogen/air flame acceleration during severe accident in NPP
R Scarpa, E Studer, S Kudriakov, B Cariteau, N Chaumeix
International Journal of Hydrogen Energy 44 (17), 9009-9017, 2019
Full-scale tunnel experiments: Blast wave and fireball evolution following hydrogen tank rupture
S Kudriakov, E Studer, G Bernard-Michel, D Bouix, L Domergue, D Forero, ...
international journal of hydrogen energy 47 (43), 18911-18933, 2022
Numerical study of spray-induced turbulence using industrial fire-mitigation nozzles
G Gai, A Hadjadj, S Kudriakov, S Mimouni, O Thomine
Energies 14 (4), 1135, 2021
Numerical simulation of the laminar hydrogen flame in the presence of a quenching mesh
S Kudriakov, E Studer, C Bin
International journal of hydrogen energy 36 (3), 2555-2559, 2011
ETSON-MITHYGENE benchmark on simulations of upward flame propagation experiment in the ENACCEF2 experimental facility
A Bentaïb, N Chaumeix, R Grosseuvres, B Alexandre, L Gastaldo, ...
12th International Topical Meeting on Reactor Thermal-Hydraulics, Operation …, 2018
On a new defect of shock-capturing methods
S Kudriakov, WH Hui
Journal of Computational Physics 227 (3), 2105-2117, 2008
Modeling pressure loads during a premixed hydrogen combustion in the presence of water spray
G Gai, S Kudriakov, A Hadjadj, E Studer, O Thomine
international journal of hydrogen energy 44 (10), 4592-4607, 2019
The system can't perform the operation now. Try again later.
Articles 1–20