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Multiplicity of detonation regimes in systems with a multi-peaked thermicity
Authors:S.S.M. Lau-Chapdelaine  Fan Zhang  Matei I. Radulescu
Affiliation:1. Department of Mechanical Engineering, University of Ottawa, Ottawa, Ontario, Canada slauc076@uottawa.ca;3. Defence Research and Development Canada, Medicine Hat, Alberta, Canada;4. Department of Mechanical Engineering, University of Ottawa, Ottawa, Ontario, Canada
Abstract:The study investigates detonations with multiple quasi-steady velocities that have been observed in the past in systems with multi-peaked thermicity, using Fickett's detonation analogue. A steady-state analysis of the travelling wave predicts multiple states, however, all but the one with the highest velocity develop a singularity after the sonic point. Simulations show singularities are associated with a shock wave which overtakes all sonic points, establishing a detonation travelling at the highest of the predicted velocities. Under a certain parameter range, the steady-state detonation can have multiple sonic points and solutions. Embedded shocks can exist behind sonic points, where they link the weak and strong solutions. Sonic points whose characteristics do not diverge are found to be unstable, and to be the source of the embedded shocks. Numerical simulations show that these shocks are only quasi-stable. This is believed to be due in part to a feature of the model which permits shocks anywhere behind a sonic point.
Keywords:hybrid detonations  detonations  shock waves  simplified models  Fickett's detonation analogue
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