| Comparison of improved finite-difference WENO schemes for the implicit large eddy simulation of turbulent non-reacting and reacting high-speed shear flows S Zhao, N Lardjane, I Fedioun Computers & Fluids 95, 74-87, 2014 | 91 | 2014 |
| 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 | 66 | 2020 |
| 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 | 41 | 2020 |
| Consistency study of lattice-Boltzmann schemes macroscopic limit G Farag, S Zhao, G Chiavassa, P Boivin Physics of Fluids 33 (3), 2021 | 37 | 2021 |
| 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 | 30 | 2021 |
| 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 | 27 | 2021 |
| Dynamics and kinematics of the reactive scalar gradient in weakly turbulent premixed flames S Zhao, A Er-Raiy, Z Bouali, A Mura Combustion and Flame 198, 436-454, 2018 | 27 | 2018 |
| Large-eddy lattice-Boltzmann modeling of transonic flows T Coratger, G Farag, S Zhao, P Boivin, P Sagaut Physics of Fluids 33 (11), 2021 | 26 | 2021 |
| Toward fully conservative hybrid lattice Boltzmann methods for compressible flows S Zhao, G Farag, P Boivin, P Sagaut Physics of Fluids 32 (12), 2020 | 26 | 2020 |
| Lattice-Boltzmann modeling of a turbulent bluff-body stabilized flame M Tayyab, S Zhao, P Boivin Physics of Fluids 33 (3), 2021 | 22 | 2021 |
| Implicit large eddy simulation of vitiation effects in supersonic air/H2 combustion M Karaca, S Zhao, I Fedioun, N Lardjane Aerospace Science and Technology 89, 89-99, 2019 | 22 | 2019 |
| Lattice-Boltzmann modeling of lifted hydrogen jet flames: a new model for hazardous ignition prediction S Taileb, A Millán-Merino, S Zhao, P Boivin Combustion and Flame 245, 112317, 2022 | 14 | 2022 |
| Lattice-Boltzmann modeling of buoyancy-driven turbulent flows M Taha, S Zhao, A Lamorlette, JL Consalvi, P Boivin Physics of Fluids 34 (5), 2022 | 13 | 2022 |
| Restoring the conservativity of characteristic-based segregated models: Application to the hybrid lattice Boltzmann method G Wissocq, T Coratger, G Farag, S Zhao, P Boivin, P Sagaut Physics of Fluids 34 (4), 2022 | 13 | 2022 |
| Computational investigation of weakly turbulent flame kernel growths in iso-octane droplet clouds in CVC conditions S Zhao, Z Bouali, A Mura Flow, Turbulence and Combustion 104 (1), 139-177, 2020 | 13 | 2020 |
| Compressible pressure-based lattice-Boltzmann applied to humid air with phase change I Cheylan, S Zhao, P Boivin, P Sagaut Applied Thermal Engineering 191, 116868, 2021 | 11 | 2021 |
| Turbulence topology evolution in weakly turbulent premixed flames A Mura, S Zhao Physics of Fluids 33 (3), 2021 | 9 | 2021 |
| A hybrid lattice Boltzmann method for gaseous detonations G Wissocq, S Taileb, S Zhao, P Boivin Journal of Computational Physics 494, 112525, 2023 | 8 | 2023 |
| A new hybrid lattice-Boltzmann method for thermal flow simulations in low-Mach number approximation G Wang, S Zhao, P Boivin, E Serre, P Sagaut Physics of Fluids 34 (4), 2022 | 6 | 2022 |
| Large eddy simulation of fire-induced flows using Lattice-Boltzmann methods M Taha, S Zhao, A Lamorlette, JL Consalvi, P Boivin International Journal of Thermal Sciences 197, 108801, 2024 | 4 | 2024 |
Pierre BoivinM2P2 lab, CNRS, AMUכתובת אימייל מאומתת בדומיין univ-amu.fr
