Premixed stoichiometric H2/O2/N2 flames propagating in two-dimensional turbulence were studied using direct numerical simulation (simulations in which all fluid and thermochemical scales are fully resolved) including realistic chemical kinetics and molecular transport. Results are compared with earlier zero-chemistry (flame sheet) and one-step chemistry simulations. Consistent with the simpler models, the turbulent flame with realistic chemistry aligns preferentially with extensive strain rates in the tangent plane and flame curvature probability density functions are close to symmetric with near-zero means. By contrast to simple-chemistry results with non-unity Lewis numbers (ratio of thermal to species diffusivity), local flame structure ...
Flame propagation statistics for turbulent, statistically planar premixed flames obtained from 3D Di...
ABSTRACT The mathematical modelling of turbulent flames is a difficult task due to the intense coupl...
State-of-the-art reacting-flow computations have to compromise either on the detail of chemical reac...
Turbulent non-premixed stoichiometric methane-air flames modeled with reduced kinetics have been stu...
A database of simulations of fundamental turbulent H2/O2 and H2/Air shear layer flames has been deve...
This paper considers the kinetic pathways of hydrogen oxidation in turbulent, premixed H2–air flames...
Direct numerical simulations of turbulent diffusion flames modeled with finite-rate, two-step chemis...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
Turbulent combustion, particularly premixed combustion has great practical importance due to their e...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
We analytically investigated the influence of light hydrocarbons on turbulent premixed H2/air atmosp...
A Direct Numerical Simulation (DNS) study of statistically one-dimensional and planar, lean complex-...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO,H2,H2O,CO2...
Three-dimensional direct numerical simulation of lean premixed hydrogen flames is used to explore th...
Flame propagation statistics for turbulent, statistically planar premixed flames obtained from 3D Di...
ABSTRACT The mathematical modelling of turbulent flames is a difficult task due to the intense coupl...
State-of-the-art reacting-flow computations have to compromise either on the detail of chemical reac...
Turbulent non-premixed stoichiometric methane-air flames modeled with reduced kinetics have been stu...
A database of simulations of fundamental turbulent H2/O2 and H2/Air shear layer flames has been deve...
This paper considers the kinetic pathways of hydrogen oxidation in turbulent, premixed H2–air flames...
Direct numerical simulations of turbulent diffusion flames modeled with finite-rate, two-step chemis...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
Direct numerical simulation of freely-propagating premixed flames of a multicomponent fuel is perfor...
Turbulent combustion, particularly premixed combustion has great practical importance due to their e...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
We analytically investigated the influence of light hydrocarbons on turbulent premixed H2/air atmosp...
A Direct Numerical Simulation (DNS) study of statistically one-dimensional and planar, lean complex-...
In this study, 3D direct numerical simulations of a multi-component fuel consisting of CO,H2,H2O,CO2...
Three-dimensional direct numerical simulation of lean premixed hydrogen flames is used to explore th...
Flame propagation statistics for turbulent, statistically planar premixed flames obtained from 3D Di...
ABSTRACT The mathematical modelling of turbulent flames is a difficult task due to the intense coupl...
State-of-the-art reacting-flow computations have to compromise either on the detail of chemical reac...