Add to ORKGAn unsteady flamelet model, which will be called the Lagrangian Flamelet Model, has been applied to a steady, turbulent CH4/H2/N2–air diffusion flame. The results have been shown to be in reasonable agreement with experimental data for axial velocity, mixture fraction, species mass fractions, and temperature. The application of three different chemical mechanisms leads to the promising conclusion that the state-of-the-art mechanisms yield almost identical results. To explain the still remaining differences from the experimental data, the effects of differential diffusion are discussed. Three possible mechanisms leading to differential diffusion are proposed: Firstly, the occurrence of a laminar mixing layer in a region very close to the noz...
This numerical and analytical study investigates effects of differential diffusion on nonpremixed-fl...
The subject of this work is the numerical simulation of a turbulent diffusion jet flame fueled with ...
Abstract. Numerical simulation results are presented for ‘Delft Flame III’, a piloted jet diffusion ...
The significance of differential molecular diffusion (DMD) has been demonstrated experimentally and ...
The significance of differential molecular diffusion (DMD) has been demonstrated experimentally and ...
Theoretical and numerical studies of laminar jet diffusion flames have been conducted in the limit o...
In this work the steady and unsteady flamelet models have been applied to soot formation in laminar ...
In this work, progress is made towards the correct modeling of differential diffusion, both for reso...
In this work an hydrogen enriched methane flame in a non-premixed configuration is studied, which co...
The unsteady ¯amelet model is applied in numerical simulations of a steady, turbulent, nitrogen-dilu...
To clarify the role of differential diffusion in highly turbulent premixed flames, a series of turbu...
A numerical study of an axisymmetric coflow laminar ethylene-air diffusion flame at atmospheric pres...
The near field jet of a self-igniting methane-air diffusion jet flame is studied by means of Direct ...
This work paid special attention on the laminar flame speed in a piloted methane-air in jet diffusio...
In this work simulation of a turbulent H2/N2 jet diffusion flame with flamelet modelling has been pr...
This numerical and analytical study investigates effects of differential diffusion on nonpremixed-fl...
The subject of this work is the numerical simulation of a turbulent diffusion jet flame fueled with ...
Abstract. Numerical simulation results are presented for ‘Delft Flame III’, a piloted jet diffusion ...
The significance of differential molecular diffusion (DMD) has been demonstrated experimentally and ...
The significance of differential molecular diffusion (DMD) has been demonstrated experimentally and ...
Theoretical and numerical studies of laminar jet diffusion flames have been conducted in the limit o...
In this work the steady and unsteady flamelet models have been applied to soot formation in laminar ...
In this work, progress is made towards the correct modeling of differential diffusion, both for reso...
In this work an hydrogen enriched methane flame in a non-premixed configuration is studied, which co...
The unsteady ¯amelet model is applied in numerical simulations of a steady, turbulent, nitrogen-dilu...
To clarify the role of differential diffusion in highly turbulent premixed flames, a series of turbu...
A numerical study of an axisymmetric coflow laminar ethylene-air diffusion flame at atmospheric pres...
The near field jet of a self-igniting methane-air diffusion jet flame is studied by means of Direct ...
This work paid special attention on the laminar flame speed in a piloted methane-air in jet diffusio...
In this work simulation of a turbulent H2/N2 jet diffusion flame with flamelet modelling has been pr...
This numerical and analytical study investigates effects of differential diffusion on nonpremixed-fl...
The subject of this work is the numerical simulation of a turbulent diffusion jet flame fueled with ...
Abstract. Numerical simulation results are presented for ‘Delft Flame III’, a piloted jet diffusion ...