Simplified chemical kinetic reaction mechanisms for the combustion of Jet A fuel was studied. Initially, 40 reacting species and 118 elementary chemical reactions were chosen based on a literature review. Through a sensitivity analysis with the use of LSENS General Kinetics and Sensitivity Analysis Code, 16 species and 21 elementary chemical reactions were determined from this study. This mechanism is first justified by comparison of calculated ignition delay time with the available shock tube data, then it is validated by comparison of calculated emissions from the plug flow reactor code with in-house flame tube data
In combustion, chemically stored energy is converted into thermal energy in a combustor and this the...
A chemical kinetic mechanism for the combustion of hydrogen has been assembled and optimized by comp...
Detailed mechanisms with hundreds of elementary reactions and species are now available for the comb...
Successful modeling of combustion and emissions in gas turbine engine combustors requires an adequat...
Jet-A spray combustion has been evaluated in gas turbine combustion with the use of propane chemical...
Reaction mechanisms for jet-fuel combustion were built with the aim of providing a better descriptio...
This paper – in memory of Jürgen Warnatz – summarizes selected recent papers of the Chemical Kinetic...
A detailed reaction mechanism for the oxidation of hydrogen and syngas in freely propagating and bur...
The autoignition dynamics of a three-component surrogate jet fuel (66.2% n-dodecane, 15.8% n-proplyl...
Conducting full-scale experiments as part of the design process of jet engine combustors is a costly...
A detailed chemical kinetic model has been developed that accurately describes pyrolysis, ignition a...
This work analyses, experimentally and numerically, the combustion behavior of a standard jet fuel (...
2013-01-17Practical jet fuels are widely used in air-breathing propulsion, but the chemical mechanis...
AbstractThe use of detailed chemical reaction mechanisms of kerosene is still very limited in analyz...
Federal Aviation Administration2019PDFManuscriptPinkowski, Nicolas HWang, YuCassady, Sean JDavidson,...
In combustion, chemically stored energy is converted into thermal energy in a combustor and this the...
A chemical kinetic mechanism for the combustion of hydrogen has been assembled and optimized by comp...
Detailed mechanisms with hundreds of elementary reactions and species are now available for the comb...
Successful modeling of combustion and emissions in gas turbine engine combustors requires an adequat...
Jet-A spray combustion has been evaluated in gas turbine combustion with the use of propane chemical...
Reaction mechanisms for jet-fuel combustion were built with the aim of providing a better descriptio...
This paper – in memory of Jürgen Warnatz – summarizes selected recent papers of the Chemical Kinetic...
A detailed reaction mechanism for the oxidation of hydrogen and syngas in freely propagating and bur...
The autoignition dynamics of a three-component surrogate jet fuel (66.2% n-dodecane, 15.8% n-proplyl...
Conducting full-scale experiments as part of the design process of jet engine combustors is a costly...
A detailed chemical kinetic model has been developed that accurately describes pyrolysis, ignition a...
This work analyses, experimentally and numerically, the combustion behavior of a standard jet fuel (...
2013-01-17Practical jet fuels are widely used in air-breathing propulsion, but the chemical mechanis...
AbstractThe use of detailed chemical reaction mechanisms of kerosene is still very limited in analyz...
Federal Aviation Administration2019PDFManuscriptPinkowski, Nicolas HWang, YuCassady, Sean JDavidson,...
In combustion, chemically stored energy is converted into thermal energy in a combustor and this the...
A chemical kinetic mechanism for the combustion of hydrogen has been assembled and optimized by comp...
Detailed mechanisms with hundreds of elementary reactions and species are now available for the comb...