A chemical kinetic mechanism for the combustion of hydrogen has been assembled and optimized by comparing the observed behavior as determined in shock tube and flame studies with that predicted by the mechanism. The reactions contained in the mechanism reflect the current state of knowledge of the chemistry of the hydrogen/air system, and the assigned rate coefficients are consistent with accepted values. It was determined that the mechanism is capable of satisfactorily reproducing the experimental results for a range of conditions relevant to scramjet combustion. Calculations made with the reaction mechanism for representative scramjet combustor conditions at Mach 8, 16, and 25 showed that chemical kinetic effects can be important and that...
Rigorous experimental, theoretical, and numerical investigation of various issues relevant to the de...
An investigation of the combustion of hydrogen perpendicularly injected from step fuel injectors int...
Two aspects of hydrogen-air non-equilibrium chemistry related to scramjets are nozzle freezing and a...
A chemical kinetic mechanism is proposed for the combustion of silane-hydrogen-oxygen-nitrogen mixtu...
Quantitative values were computed which show the effects of the presence of small amounts of oxygen,...
An analysis of the performance of an updated hydrogen combustion mechanism is presented. Particular ...
Thermochemical exploration of mixing and combustion of parallel hydrogen injection into supersonic v...
Combustion in scramjet engines is faced with the limitation of brief residence time in the combustio...
A comprehensively tested H2/O2 chemical kinetic mechanism based on Mueller et al. [1] and recently p...
Reduced chemical-kinetic mechanisms are investigated for hydrogen and syngas combustion to fill the ...
Simplified chemical kinetic reaction mechanisms for the combustion of Jet A fuel was studied. Initia...
A detailed reaction mechanism for the oxidation of hydrogen and syngas in freely propagating and bur...
A numerical study was performed to assess the effects of vitiated air on the chemical kinetics of hy...
Proceedings of: 13th International Conference on Numerical Combustion, 27-29 April, 2011, Corfu (Gr...
Thrust losses due to the inability of dissociated combustion gases to recombine in exhaust nozzles a...
Rigorous experimental, theoretical, and numerical investigation of various issues relevant to the de...
An investigation of the combustion of hydrogen perpendicularly injected from step fuel injectors int...
Two aspects of hydrogen-air non-equilibrium chemistry related to scramjets are nozzle freezing and a...
A chemical kinetic mechanism is proposed for the combustion of silane-hydrogen-oxygen-nitrogen mixtu...
Quantitative values were computed which show the effects of the presence of small amounts of oxygen,...
An analysis of the performance of an updated hydrogen combustion mechanism is presented. Particular ...
Thermochemical exploration of mixing and combustion of parallel hydrogen injection into supersonic v...
Combustion in scramjet engines is faced with the limitation of brief residence time in the combustio...
A comprehensively tested H2/O2 chemical kinetic mechanism based on Mueller et al. [1] and recently p...
Reduced chemical-kinetic mechanisms are investigated for hydrogen and syngas combustion to fill the ...
Simplified chemical kinetic reaction mechanisms for the combustion of Jet A fuel was studied. Initia...
A detailed reaction mechanism for the oxidation of hydrogen and syngas in freely propagating and bur...
A numerical study was performed to assess the effects of vitiated air on the chemical kinetics of hy...
Proceedings of: 13th International Conference on Numerical Combustion, 27-29 April, 2011, Corfu (Gr...
Thrust losses due to the inability of dissociated combustion gases to recombine in exhaust nozzles a...
Rigorous experimental, theoretical, and numerical investigation of various issues relevant to the de...
An investigation of the combustion of hydrogen perpendicularly injected from step fuel injectors int...
Two aspects of hydrogen-air non-equilibrium chemistry related to scramjets are nozzle freezing and a...