The oxidation of kerosene (Jet-A1) has been studied experimentally in a jet-stirred reactor at 1 to 40atm and constant residence time, over the high temperature range 800-1300K, and for variable equivalence ratio 0.5<φ<2. Concentration profiles of reactants, stable intermediates, and final products have been obtained by probe sampling followed by on-line and off-line GC analyses. The oxidation of kerosene in these conditions was modeled using a detailed kinetic reaction mechanism (209 species and 1673 reactions, most of them reversible). In the kinetic modeling, kerosene was represented by four surrogate model fuels: 100% n-decane, n-decane-n-propylbenzene (74%26%mole), n-decane-n-propylcyclohexane (74%26%mole), and n-decane-n-propylbenzene-n-propylcyclohexane (74%15%11%mole). The three-component model fuel was the most appropriate for simulating the JSR experiments. It was also successfully used to simulate the structure of a fuel-rich premixed kerosene-oxygen-nitrogen flame and ignition delays taken from the literature.

Issue Section:
Gas Turbines: Combustion and Fuels
Keywords:
jet engines, combustion, reaction kinetics, ignition
Topics:
Fuels, Modeling, Oxidation, Oxygen, Nitrogen, Combustion, Flames
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Copyright © 2007
 by American Society of Mechanical Engineers
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