Direct numerical simulation (DNS) of the near-field of a three-dimensional spatially-developing turbulent ethylene jet flame in highly-heated coflow is performed with a reduced mechanism to determine the stabilization mechanism. The DNS was performed at a jet Reynolds number of 10,000 with over 1.29 billion grid points. The results show that auto-ignition in a fuel-lean mixture at the flame base is the main source of stabilization of the lifted jet flame. The Damkohler number and chemical explosive mode (CEM) analysis also verify that auto-ignition occurs at the flame base. In addition to auto-ignition, Lagrangian tracking of the flame base reveals the passage of large-scale flow structures and their correlation with the fluctuations of the...
The theory of computational singular perturbation (CSP) was employed to analyze the near-field struc...
International audienceThe stability and dynamics of an axisymmetric lifted flame are studied by mean...
International audienceThis work presents an analysis of the stabilization of diffusion flames create...
Direct numerical simulation (DNS) of the near-field of a three-dimensional spatially-developing turb...
Direct numerical simulation (DNS) of the near field of a three-dimensional spatially developing turb...
Three-dimensional direct numerical simulations of turbulent lifted hydrogen jet flames in heated cof...
Direct numerical simulations (DNSs) of the near field of three-dimensional spatially-developing turb...
Department of Mechanical EngineeringNonpremixed flames have received great attention during the past...
A turbulent lifted slot-jet flame is studied using direct numerical simulation (DNS). A single step ...
The characteristics of the flame structure and stabilization of autoignited laminar lifted n-heptane...
WOS:000400312700018International audienceLarge-eddy simulation of a supersonic hydrogen-air non-prem...
A turbulent lifted slot-jet flame is studied using direct numerical simulation (DNS). A one- step ch...
The properties of turbulent lifted non-premixed hydrogen jet flames under different coflow air tempe...
The recently developed method of chemical explosive mode (CEM) analysis (CEMA) was extended and empl...
A chemical explosive mode analysis (CEMA) was developed as a new diagnostic to identify flame and ig...
The theory of computational singular perturbation (CSP) was employed to analyze the near-field struc...
International audienceThe stability and dynamics of an axisymmetric lifted flame are studied by mean...
International audienceThis work presents an analysis of the stabilization of diffusion flames create...
Direct numerical simulation (DNS) of the near-field of a three-dimensional spatially-developing turb...
Direct numerical simulation (DNS) of the near field of a three-dimensional spatially developing turb...
Three-dimensional direct numerical simulations of turbulent lifted hydrogen jet flames in heated cof...
Direct numerical simulations (DNSs) of the near field of three-dimensional spatially-developing turb...
Department of Mechanical EngineeringNonpremixed flames have received great attention during the past...
A turbulent lifted slot-jet flame is studied using direct numerical simulation (DNS). A single step ...
The characteristics of the flame structure and stabilization of autoignited laminar lifted n-heptane...
WOS:000400312700018International audienceLarge-eddy simulation of a supersonic hydrogen-air non-prem...
A turbulent lifted slot-jet flame is studied using direct numerical simulation (DNS). A one- step ch...
The properties of turbulent lifted non-premixed hydrogen jet flames under different coflow air tempe...
The recently developed method of chemical explosive mode (CEM) analysis (CEMA) was extended and empl...
A chemical explosive mode analysis (CEMA) was developed as a new diagnostic to identify flame and ig...
The theory of computational singular perturbation (CSP) was employed to analyze the near-field struc...
International audienceThe stability and dynamics of an axisymmetric lifted flame are studied by mean...
International audienceThis work presents an analysis of the stabilization of diffusion flames create...