International audienceThe integration of chemistry into a numerical fully compressible solver is carried out in this study using three models: detailed chemistry, fully tabulated chemistry (CTC) and a model coupling both approaches called HTTC, for hybrid transported-tabulated chemistry. With HTTC major species are transported while most minor species are tabulated. As minor species are no longer transported with the flow, the time step is close to the values usually encountered for non-reactive flows, far beyond what is found in detailed chemistry. The performance of HTTC for reproducing the dynamics of a methane/air edge flame featuring a very strong mixture fraction gradient is also investigated. The results agree favorably with the refe...
WOS:000390834100007International audienceIn a preliminary part, reduced chemical schemes from the li...
The Siemens SGT-800 3rd generation DLE burner fitted to an atmospheric combustion rig has been numer...
Capturing the effects of detailed-chemistry on turbulent combustion processes is a central challenge...
International audienceThe integration of chemistry into a numerical fully compressible solver is car...
International audienceThe integration of combustion chemistry into a fully compressible numerical so...
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...
Malgré l'augmentation constante des ressources informatiques dédiées au calcul scientifique, simuler...
Large-scale high-fidelity numerical simulation with detailed chemistry is an important approach to t...
The paper presents numerical simulations of the Sandia / Sydney bluff-body stabilized flame HM1 [1] ...
The objective of the current work is to assess the performance of different combustion models in pre...
The objective of this work is to assess the performance of different combustion models in predicting...
Computational fluid dynamics of methane combustion using chemical kinetics for description of the ch...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
The velocity-dissipation-composition pdf (probability density function) has been solved by a Monte-C...
WOS:000390834100007International audienceIn a preliminary part, reduced chemical schemes from the li...
The Siemens SGT-800 3rd generation DLE burner fitted to an atmospheric combustion rig has been numer...
Capturing the effects of detailed-chemistry on turbulent combustion processes is a central challenge...
International audienceThe integration of chemistry into a numerical fully compressible solver is car...
International audienceThe integration of combustion chemistry into a fully compressible numerical so...
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...
Malgré l'augmentation constante des ressources informatiques dédiées au calcul scientifique, simuler...
Large-scale high-fidelity numerical simulation with detailed chemistry is an important approach to t...
The paper presents numerical simulations of the Sandia / Sydney bluff-body stabilized flame HM1 [1] ...
The objective of the current work is to assess the performance of different combustion models in pre...
The objective of this work is to assess the performance of different combustion models in predicting...
Computational fluid dynamics of methane combustion using chemical kinetics for description of the ch...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
The velocity-dissipation-composition pdf (probability density function) has been solved by a Monte-C...
WOS:000390834100007International audienceIn a preliminary part, reduced chemical schemes from the li...
The Siemens SGT-800 3rd generation DLE burner fitted to an atmospheric combustion rig has been numer...
Capturing the effects of detailed-chemistry on turbulent combustion processes is a central challenge...