A detonation stability formulation for arbitrary equations of state and multi-step reaction mechanisms |
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Authors: | V. Gorchkov C.B. Kiyanda M. Short J.J. Quirk |
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Affiliation: | aDepartment of Theoretical and Applied Mechanics, University of Illinois, Urbana, IL 61801, USA;bLos Alamos National Laboratory, Los Alamos, NM 87545, USA |
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Abstract: | A general normal-mode linear stability formulation of steady planar detonation waves is presented that is valid both for an arbitrary equation of state and for multi-step, multi-species chemical kinetics. The general formulation can be used for many purposes, including an examination of gaseous detonation stability with complex reaction kinetics in which the individual reacting species have variable thermochemical properties. In the present paper, we consider two cases that could not be obtained by previous one-step chemistry, polytropic gas formulations: the first concerns the effect of a difference in heat capacities between product and fuel species, as well as a possible mole change, in a single-step irreversible reaction. The second examines the effects of exothermic or endothermic heat release/absorption in the chain-initiation stage of a model three-step reaction. |
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Keywords: | Detonations Stability Equations of state Complex chemical kinetics |
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