Impinging shear layer instability in over-expanded nozzle dynamics

Tarsia Morisco, C.; Robinet, J.-C.; Herpe, J.; Saucereau, D.

doi:10.1063/5.0176041

Physics of Fluids

2023

DOI: 10.1063/5.0176041

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Impinging shear layer instability in over-expanded nozzle dynamics

C. Tarsia Morisco,

J.-C. Robinet,

J. Herpe

et al.

Abstract: When rocket engine nozzles operate at a high degree of over-expansion, an internal flow separation occurs with a strong unsteady shock–wave boundary layer interaction. The global dynamics results in a low-frequency mode, which is associated with the shock displacement, and a high-frequency mode, which is correlated with the shear layer–boundary layer interaction. While the mechanism responsible for the low-frequency oscillation is known, the one in charge of the high-frequency unsteadiness is not yet clear. Th… Show more

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2024

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Experimental investigation on the spray structure of supercritical aviation kerosene in a swirling flow field

Shi,

Jiang,

Long

et al. 2024

Physics of Fluids

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In advanced aeroengines with higher inlet temperature, the cooling capacity of kerosene should be fully used, which turns kerosene into supercritical. The spray features of supercritical kerosene make the mixing process of supercritical kerosene with air different from that of subcritical kerosene. In this work, the spray of supercritical kerosene in a swirling flow field is investigated experimentally. The spray characteristics of supercritical kerosene are obtained using the schlieren technique. The instability of the jet morphology is analyzed using proper orthogonal decomposition (POD) method. The results prove that the combustor head structure significantly affects the overall spray morphology. A “packet structure” caused by density stratification is observed in the spray, which suppresses the circumferential diffusion of the jet. The “packet structure” is highly correlated with the airflow speed. The structural parameters of the supercritical kerosene jet are not sensitive to the changes in kerosene injection pressure, which, however, has a positive correlation with injection temperature. The main cause of the instability of the jet morphology in supercritical kerosene jets is the formation and shedding of vortices on the jet surface, which can be intensified by condensation. Density stratification suppresses shear layer instability, stabilizing the “packet structure” during the injection.

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Experimental investigation on the spray structure of supercritical aviation kerosene in a swirling flow field

Shi,

Jiang,

Long

et al. 2024

Physics of Fluids

View full text Add to dashboard Cite

show abstract

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Impinging shear layer instability in over-expanded nozzle dynamics

Cited by 1 publication

References 47 publications

Experimental investigation on the spray structure of supercritical aviation kerosene in a swirling flow field

Experimental investigation on the spray structure of supercritical aviation kerosene in a swirling flow field

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