Computational science is paramount to the understanding of underlying processes in internal combustion engines of the future that will utilize non-petroleum-based alternative fuels, including carbon-neutral biofuels, and burn in new combustion regimes that will attain high efficiency while minimizing emissions of particulates and nitrogen oxides. Next-generation engines will likely operate at higher pressures, with greater amounts of dilution and utilize alternative fuels that exhibit a wide range of chemical and physical properties. Therefore, there is a significant role for high-fidelity simulations, direct numerical simulations (DNS), specifically designed to capture key turbulence-chemistry interactions in these relatively uncharted com...
International audienceDetailed chemical mechanisms have to be incorporated in turbulent combustion m...
Understanding and modeling of turbulent combustion are key problems in the computation of numerous p...
Gas turbines are a crucial contributor to the world’s power capacity and will play an increasingly i...
The TSTC project is a multi-university collaborative effort to develop a high-fidelity turbulent rea...
International audienceThe simulation of turbulent flames fully resolving the smallest flow scales an...
International audienceDirect numerical simulations (DNS) are ideally suited to investigate in detail...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
Combustion plays an important role on the energy production network throughout the entire world, fro...
With the increase in computational power in the last decade and the forthcoming Exascale supercomput...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
To meet future climate goals, the efficiency of combustion devices has to be increased. This require...
Fossil fuel reserves are projected to be decreasing, and emission regulations are becoming more stri...
Direct numerical simulation (DNS) is powerful for revealing turbulent combustion processes since it ...
The monolithic nature of transportation technologies offers opportunities for significant improvemen...
© 2020 Man Ching MaIn most practical premixed combustion devices, turbulence-flame interaction (TFI)...
International audienceDetailed chemical mechanisms have to be incorporated in turbulent combustion m...
Understanding and modeling of turbulent combustion are key problems in the computation of numerous p...
Gas turbines are a crucial contributor to the world’s power capacity and will play an increasingly i...
The TSTC project is a multi-university collaborative effort to develop a high-fidelity turbulent rea...
International audienceThe simulation of turbulent flames fully resolving the smallest flow scales an...
International audienceDirect numerical simulations (DNS) are ideally suited to investigate in detail...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
Combustion plays an important role on the energy production network throughout the entire world, fro...
With the increase in computational power in the last decade and the forthcoming Exascale supercomput...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
To meet future climate goals, the efficiency of combustion devices has to be increased. This require...
Fossil fuel reserves are projected to be decreasing, and emission regulations are becoming more stri...
Direct numerical simulation (DNS) is powerful for revealing turbulent combustion processes since it ...
The monolithic nature of transportation technologies offers opportunities for significant improvemen...
© 2020 Man Ching MaIn most practical premixed combustion devices, turbulence-flame interaction (TFI)...
International audienceDetailed chemical mechanisms have to be incorporated in turbulent combustion m...
Understanding and modeling of turbulent combustion are key problems in the computation of numerous p...
Gas turbines are a crucial contributor to the world’s power capacity and will play an increasingly i...