Add to ORKGThis study addresses the protocol of tests for evaluating the performance of skeletal, reduced and highly-reduced chemical kinetics mechanisms for one-dimensional (1D) laminar flame simulations and the validity of these tests for turbulent flame applications. Taking n-heptane as an example fuel, it is first shown that there are apparent disagreements regarding the elementary-reaction chemical kinetics models which should be emulated by reduced kinetic mechanisms. Further it is also shown, expectably, that the functional relationship between mass fractions and temperature is different between 0D and 1D models, and it is different among 1D models having different molecular species-transport formulations. Having identified the retention of thi...
WOS:000390834100007International audienceIn a preliminary part, reduced chemical schemes from the li...
A methodology for deriving a reduced kinetic mechanism for alkane oxidation is described, inspired b...
Flame propagation statistics for turbulent, statistically planar premixed flames obtained from 3D Di...
This study addresses the protocol of tests for evaluating the performance of skeletal, reduced and h...
Reactive flow simulations involving turbulence-chemistry interaction are extremely challenging becau...
A model of steady, quasi one-dimensional premixed laminar jet flame developing unopposed into a unif...
Understanding the effects of alternative chemical kinetic mechanisms in turbulent reactive flows is ...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO, H2, H2 O,...
In this paper, a new methodology to determine kinetic parameters for simple chemical models and simp...
AbstractIn this study, 3D direct numerical simulations of a multi-component fuel consisting of CO,H2...
When it comes to handling large hydrocarbon molecules and describing the pyrolysis and combustion be...
Turbulent non-premixed stoichiometric methane-air flames modeled with reduced kinetics have been stu...
Computational fluid dynamics (CFD) is an important tool for designing and optimizing combustion syst...
A diffusion model is proposed, which simplifies the application of reduced reaction mechanisms consi...
Realistic numerical simulations of pyrolysis and combustion require not only accurate modeling of fl...
WOS:000390834100007International audienceIn a preliminary part, reduced chemical schemes from the li...
A methodology for deriving a reduced kinetic mechanism for alkane oxidation is described, inspired b...
Flame propagation statistics for turbulent, statistically planar premixed flames obtained from 3D Di...
This study addresses the protocol of tests for evaluating the performance of skeletal, reduced and h...
Reactive flow simulations involving turbulence-chemistry interaction are extremely challenging becau...
A model of steady, quasi one-dimensional premixed laminar jet flame developing unopposed into a unif...
Understanding the effects of alternative chemical kinetic mechanisms in turbulent reactive flows is ...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO, H2, H2 O,...
In this paper, a new methodology to determine kinetic parameters for simple chemical models and simp...
AbstractIn this study, 3D direct numerical simulations of a multi-component fuel consisting of CO,H2...
When it comes to handling large hydrocarbon molecules and describing the pyrolysis and combustion be...
Turbulent non-premixed stoichiometric methane-air flames modeled with reduced kinetics have been stu...
Computational fluid dynamics (CFD) is an important tool for designing and optimizing combustion syst...
A diffusion model is proposed, which simplifies the application of reduced reaction mechanisms consi...
Realistic numerical simulations of pyrolysis and combustion require not only accurate modeling of fl...
WOS:000390834100007International audienceIn a preliminary part, reduced chemical schemes from the li...
A methodology for deriving a reduced kinetic mechanism for alkane oxidation is described, inspired b...
Flame propagation statistics for turbulent, statistically planar premixed flames obtained from 3D Di...