Add to ORKGJournal ArticleThe Utah Surrogate Mechanism was used to model a fuel-rich, non-sooting premixed laminar flame of propylene at 5000 Pa with an equivalence ratio of 2.32. The simulation results were found to be satisfactory in comparison with the experimental data. For example, the measured concentration profiles of the fuel, oxidizer, inert and major products were successfully reproduced. The predictive ability of the model for soot precursors is one of the major foci of this paper; the maximum acetylene and benzene concentrations were predicted within 15% and 30% of the measured values, respectively. The formation of benzene and naphthalene has been critically examined to identify the major reaction pathways of these smallest aromatics, ...
We use a detailed chemical kinetic mechanism to explore the effects of C/O ratio, temperature and pr...
A sooting, ethylene coflow diffusion flame has been numerically studied. A detailed kinetic mechanis...
abstractTo study the formation of air pollutants and soot precursors (e.g., acetylene, 1,3-butadiene...
journal articleA new kinetic mechanism has been developed for the formation of benzene and high-mole...
A detailed chemical kinetic modeling has been developed to investigate aromatic and first polyaromat...
Experimental and detailed chemical kinetic modeling has been performed to investigate aromatic and p...
Flames that have an excess of fuel, compared to the stoichiometry, or where the mixing between fuel ...
The mole fraction profiles of major flame species and intermediates including PAH precursors are mea...
Modeling combustion of transportation fuels remains a difficult task due to the extremely large numb...
Böhm H, Lamprecht A, Atakan B, Kohse-Höinghaus K. Modelling of a fuel-rich premixed propene-oxygen-a...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, May, 2020...
Combustion of hydrocarbons inadvertently produces soot which has detrimental effects on both health ...
The reduction of soot emissions from technical combustion devices requires the development of chemic...
It is known that the formation of minor species such as polycyclic aromatic hydrocarbons (PAHs) cann...
A kinetic mechanism, previously developed and successfully applied to the prediction of the formatio...
We use a detailed chemical kinetic mechanism to explore the effects of C/O ratio, temperature and pr...
A sooting, ethylene coflow diffusion flame has been numerically studied. A detailed kinetic mechanis...
abstractTo study the formation of air pollutants and soot precursors (e.g., acetylene, 1,3-butadiene...
journal articleA new kinetic mechanism has been developed for the formation of benzene and high-mole...
A detailed chemical kinetic modeling has been developed to investigate aromatic and first polyaromat...
Experimental and detailed chemical kinetic modeling has been performed to investigate aromatic and p...
Flames that have an excess of fuel, compared to the stoichiometry, or where the mixing between fuel ...
The mole fraction profiles of major flame species and intermediates including PAH precursors are mea...
Modeling combustion of transportation fuels remains a difficult task due to the extremely large numb...
Böhm H, Lamprecht A, Atakan B, Kohse-Höinghaus K. Modelling of a fuel-rich premixed propene-oxygen-a...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, May, 2020...
Combustion of hydrocarbons inadvertently produces soot which has detrimental effects on both health ...
The reduction of soot emissions from technical combustion devices requires the development of chemic...
It is known that the formation of minor species such as polycyclic aromatic hydrocarbons (PAHs) cann...
A kinetic mechanism, previously developed and successfully applied to the prediction of the formatio...
We use a detailed chemical kinetic mechanism to explore the effects of C/O ratio, temperature and pr...
A sooting, ethylene coflow diffusion flame has been numerically studied. A detailed kinetic mechanis...
abstractTo study the formation of air pollutants and soot precursors (e.g., acetylene, 1,3-butadiene...