Add to ORKGBöhm H, Jander H, Tanke D. PAH growth and soot formation in the pyrolysis of acetylene and benzene at high temperatures and pressures: Modeling and experiment. PROCEEDINGS OF THE COMBUSTION INSTITUTE. 1998;27(1):1605-1612
A detailed chemical kinetic modeling has been developed to investigate aromatic and first polyaromat...
We use a detailed chemical kinetic mechanism to explore the effects of C/O ratio, temperature and pr...
The objective of the present study is to explore the effects of aromatic hydrocarbons and reactant t...
Böhm H, Jander H. PAH formation in acetylene/benzene pyrolysis. PHYSICAL CHEMISTRY CHEMICAL PHYSICS....
The aim of this work is to couple a general and detailed kinetic model of gas phase combustion chemi...
An experimental investigation of phenyl radical pyrolysis and the phenyl radical + acetylene reactio...
A detailed kinetic model of soot formation in hydrocarbon pyrolysis [1] and oxidation [2] under cond...
The aim of this kinetic work is a critical and detailed analysis of the acetylene pyrolysis in a wid...
Reducing soot emissions from combustion processes is important due to the negative health and enviro...
Combustion of hydrocarbons inadvertently produces soot which has detrimental effects on both health ...
International audienceHydrocarbon pyrolysis in low-Pressure gas carburizing conditions drives to gas...
International audienceLaminar nitrogen-diluted n-heptane diffusion flames burning in coflow air were...
A study combining experimental, empirical modeling, and detailed modeling techniques has been conduc...
A detailed model of soot formation is proposed, which consists of a gas-phase kinetic model for the ...
A detailed chemical kinetic modeling has been developed to investigate aromatic and first polyaromat...
We use a detailed chemical kinetic mechanism to explore the effects of C/O ratio, temperature and pr...
The objective of the present study is to explore the effects of aromatic hydrocarbons and reactant t...
Böhm H, Jander H. PAH formation in acetylene/benzene pyrolysis. PHYSICAL CHEMISTRY CHEMICAL PHYSICS....
The aim of this work is to couple a general and detailed kinetic model of gas phase combustion chemi...
An experimental investigation of phenyl radical pyrolysis and the phenyl radical + acetylene reactio...
A detailed kinetic model of soot formation in hydrocarbon pyrolysis [1] and oxidation [2] under cond...
The aim of this kinetic work is a critical and detailed analysis of the acetylene pyrolysis in a wid...
Reducing soot emissions from combustion processes is important due to the negative health and enviro...
Combustion of hydrocarbons inadvertently produces soot which has detrimental effects on both health ...
International audienceHydrocarbon pyrolysis in low-Pressure gas carburizing conditions drives to gas...
International audienceLaminar nitrogen-diluted n-heptane diffusion flames burning in coflow air were...
A study combining experimental, empirical modeling, and detailed modeling techniques has been conduc...
A detailed model of soot formation is proposed, which consists of a gas-phase kinetic model for the ...
A detailed chemical kinetic modeling has been developed to investigate aromatic and first polyaromat...
We use a detailed chemical kinetic mechanism to explore the effects of C/O ratio, temperature and pr...
The objective of the present study is to explore the effects of aromatic hydrocarbons and reactant t...