Mechanism of instabilities in turbulent combustion leading to flashback
Abstract
High-speed schlieren cinematography, combined with synchronized pressure transducer records, was used to investigate the mechanism of combustion instabilities leading to flashback. The combustion chamber had an oblong rectangular cross-section to model the essential features of planar flow, and was provided with a rearward facing step acting as a flameholder. As the rich limit was approached, three instability modes were observed: (1) humming - a significant increase in the amplitude of the vortex pattern; (2) buzzing - a large-scale oscillation of the flame; and (3) chucking - a cyclic reformation of the flame, which results in flashback. The mechanism of these phenomena is ascribed to the action of vortices in the recirculation zone and their interactions with the trailing vortex pattern of the turbulent mixing layer behind the step.
- Publication:
-
AIAA, Aerospace Sciences Meeting
- Pub Date:
- January 1981
- Bibcode:
- 1981aiaa.meetT....K
- Keywords:
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- Combustible Flow;
- Combustion Stability;
- Flashback;
- Premixed Flames;
- Turbulent Flow;
- Burning Rate;
- Combustion Chambers;
- Flame Holders;
- Flow Distribution;
- Mixing Layers (Fluids);
- Schlieren Photography;
- Unsteady Flow;
- Fluid Mechanics and Heat Transfer