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Pierre Boivin
Pierre Boivin
M2P2 lab, CNRS, AMU
Adresse e-mail validée de univ-amu.fr - Page d'accueil
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An explicit reduced mechanism for H2–air combustion
P Boivin, C Jiménez, AL Sánchez, FA Williams
Proceedings of the Combustion Institute 33 (1), 517-523, 2011
1912011
A general formulation for cavitating, boiling and evaporating flows
R Saurel, P Boivin, O Le Métayer
Computers & Fluids 128, 53-64, 2016
1242016
Hybrid recursive regularized thermal lattice Boltzmann model for high subsonic compressible flows
Y Feng, P Boivin, J Jacob, P Sagaut
Journal of Computational Physics 394, 82-99, 2019
1152019
Simulation of a supersonic hydrogen–air autoignition-stabilized flame using reduced chemistry
P Boivin, A Dauptain, C Jiménez, B Cuenot
Combustion and Flame 159 (4), 1779-1790, 2012
892012
A four-step reduced mechanism for syngas combustion
P Boivin, C Jiménez, AL Sánchez, FA Williams
Combustion and Flame 158 (6), 1059-1063, 2011
862011
A simple and fast phase transition relaxation solver for compressible multicomponent two-phase flows
A Chiapolino, P Boivin, R Saurel
Computers & Fluids 150, 31-45, 2017
742017
A pressure-based regularized lattice-Boltzmann method for the simulation of compressible flows
G Farag, S Zhao, T Coratger, P Boivin, G Chiavassa, P Sagaut
Physics of Fluids 32 (6), 2020
582020
A simple phase transition relaxation solver for liquid–vapor flows
A Chiapolino, P Boivin, R Saurel
International Journal for Numerical Methods in Fluids 83 (7), 583-605, 2017
502017
Explicit analytic prediction for hydrogen–oxygen ignition times at temperatures below crossover
P Boivin, AL Sánchez, FA Williams
Combustion and Flame 159 (2), 748-752, 2012
472012
A lattice-Boltzmann model for low-Mach reactive flows
Y Feng, M Tayyab, P Boivin
Combustion and Flame 196, 249-254, 2018
462018
Four-step and three-step systematically reduced chemistry for wide-range H2–air combustion problems
P Boivin, AL Sánchez, FA Williams
Combustion and flame 160 (1), 76-82, 2013
442013
Reduced-kinetic mechanisms for hydrogen and syngas combustion including autoignition
P Boivin
422011
Hybrid regularized lattice-Boltzmann modelling of premixed and non-premixed combustion processes
M Tayyab, S Zhao, Y Feng, P Boivin
Combustion and Flame 211, 173-184, 2020
392020
A new formulation for two-wave Riemann solver accurate at contact interfaces
X Deng, P Boivin, F Xiao
Physics of Fluids 31 (4), 2019
372019
Consistency study of lattice-Boltzmann schemes macroscopic limit
G Farag, S Zhao, G Chiavassa, P Boivin
Physics of Fluids 33 (3), 2021
332021
Hybrid recursive regularized lattice Boltzmann simulation of humid air with application to meteorological flows
Y Feng, P Boivin, J Jacob, P Sagaut
Physical Review E 100 (2), 023304, 2019
322019
Large-eddy lattice-Boltzmann modeling of transonic flows
T Coratger, G Farag, S Zhao, P Boivin, P Sagaut
Physics of Fluids 33 (11), 2021
262021
A unified hybrid lattice-Boltzmann method for compressible flows: Bridging between pressure-based and density-based methods
G Farag, T Coratger, G Wissocq, S Zhao, P Boivin, P Sagaut
Physics of Fluids 33 (8), 2021
252021
Benchmarking a lattice-Boltzmann solver for reactive flows: Is the method worth the effort for combustion?
P Boivin, M Tayyab, S Zhao
Physics of Fluids 33 (7), 2021
242021
Toward fully conservative hybrid lattice Boltzmann methods for compressible flows
S Zhao, G Farag, P Boivin, P Sagaut
Physics of Fluids 32 (12), 2020
242020
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