International audienceThe integration of combustion chemistry into a fully compressible numerical solver is presently achieved using the hybrid transported-tabulated chemistry (HTTC). With HTTC, the main species are transported while most minor species are tabulated, which means that differences with a fully transported chemistry (FTC) solver are limited and concern mainly table reading for minor species. The implementation steps of HTTC are given in detail and an optimization of the code is proposed by tabulating the properties of the pure species as well as the reaction rates of the elementary reactions as a function of the temperature to speed up simulations. The original version of HTTC, validated for premixed combustion, has been also ...
International audienceTabulated chemistry is a popular technique to account for detailed chemical ef...
Detailed chemical kinetics is important for high-fidelity reacting flow simulations. The major chall...
Detailed mechanisms describing complex phenomena of combustion chemistry, such as flame propagation ...
International audienceThe integration of combustion chemistry into a fully compressible numerical so...
Malgré l'augmentation constante des ressources informatiques dédiées au calcul scientifique, simuler...
International audienceThe integration of chemistry into a numerical fully compressible solver is car...
Even if significant progress is being made to improve the power of high-performance computers, the n...
WOS:000328844400010International audienceA strategy to introduce hydrocarbon combustion detailed che...
International audienceVarious strategies have been proposed to tabulate complex chemistry for subseq...
Large-scale high-fidelity numerical simulation with detailed chemistry is an important approach to t...
In this paper, a modified version of the latest implementation of In-Situ-Adaptive-Tabulation (ISAT)...
A direct numerical simulation (DNS) coupling with multi-zone chemistry mapping (MZCM) is presented t...
Multi-dimensional models represent today consolidated tools to simulate the combustion process in HC...
International audienceThe present work focuses on the coupling between tabulated chemistry technique...
International audienceTabulated chemistry is a popular technique to account for detailed chemical ef...
Detailed chemical kinetics is important for high-fidelity reacting flow simulations. The major chall...
Detailed mechanisms describing complex phenomena of combustion chemistry, such as flame propagation ...
International audienceThe integration of combustion chemistry into a fully compressible numerical so...
Malgré l'augmentation constante des ressources informatiques dédiées au calcul scientifique, simuler...
International audienceThe integration of chemistry into a numerical fully compressible solver is car...
Even if significant progress is being made to improve the power of high-performance computers, the n...
WOS:000328844400010International audienceA strategy to introduce hydrocarbon combustion detailed che...
International audienceVarious strategies have been proposed to tabulate complex chemistry for subseq...
Large-scale high-fidelity numerical simulation with detailed chemistry is an important approach to t...
In this paper, a modified version of the latest implementation of In-Situ-Adaptive-Tabulation (ISAT)...
A direct numerical simulation (DNS) coupling with multi-zone chemistry mapping (MZCM) is presented t...
Multi-dimensional models represent today consolidated tools to simulate the combustion process in HC...
International audienceThe present work focuses on the coupling between tabulated chemistry technique...
International audienceTabulated chemistry is a popular technique to account for detailed chemical ef...
Detailed chemical kinetics is important for high-fidelity reacting flow simulations. The major chall...
Detailed mechanisms describing complex phenomena of combustion chemistry, such as flame propagation ...