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- Title
Propagation instabilities of the oblique detonation wave in partially prevaporized n -heptane sprays.
- Authors
Tian, Cheng; Teng, Honghui; Shi, Baolu; Yang, Pengfei; Wang, Kuanliang; Zhao, Majie
- Abstract
Two-dimensional oblique detonation wave (ODW) propagations in partially prevaporized n -heptane sprays are numerically simulated with a skeletal chemical mechanism. The influences of the droplet diameter and total equivalence on oblique detonation are considered. The initiation length is found to increase first and then decrease with increasing initial droplet diameter, and the effect of droplet size is maximized when the initial droplet diameter is approximately $10\ \mathrm {\mu } {\rm m}$. As the initial droplet diameter varies, unsteady and steady ODWs are observed. In the cases of unsteady ODWs, temperature gradients and non-uniform distributions of the reactant mixture due to droplet evaporation lead to formation of unsteady detonation propagation, therefore leading to fluctuations in the initiation length. The fluctuations in initiation length decrease as the pre-evaporation gas equivalence ratio increases for the unsteady cases. The results further suggest that the relationship between the evaporation layer thickness along the streamline and the corresponding theoretical initiation length can be used to identify an unsteady or steady ODW in cases with large droplets that evaporate behind an oblique shock wave or ODW under the effects of different initial droplet diameters.
- Subjects
DETONATION waves; SHOCK waves; MAGNETOHYDRODYNAMIC instabilities; MULTIPHASE flow; BLAST effect
- Publication
Journal of Fluid Mechanics, 2024, Vol 984, p1
- ISSN
0022-1120
- Publication type
Article
- DOI
10.1017/jfm.2024.194