Effect of jet splitting using passive strut on the performance and thermoacoustic characteristics of a scramjet combustor

Nair, Prasanth P.; Ananthu, J. P.; Narayanan, Vinod

doi:10.1063/5.0217214

Physics of Fluids

2024

DOI: 10.1063/5.0217214

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Effect of jet splitting using passive strut on the performance and thermoacoustic characteristics of a scramjet combustor

Prasanth P. Nair,

J. P. Ananthu,

Vinod Narayanan

Abstract: A scramjet engine offers a potential route to achieve supersonic speeds using airbreathing engines. Achieving proper mixing and combustion poses a challenge due to the supersonic inflow of air. Researchers have explored multi-strut configurations to tackle this issue. However, multiple struts supplying fuel inefficiently can lead to fuel loss and reduced efficiency. Alternatively, utilizing a multi-strut setup passively could enhance combustion and mixing efficiency. In this study, two types of jet splitting p… Show more

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Cited by 3 publications

References 112 publications

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Effect of injection location on mixing characteristics with pylon downstream of cavity

Nair,

Narayanan

2024

Aerospace Science and Technology

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Effect of injection location on mixing characteristics with pylon downstream of cavity

Nair,

Narayanan

2024

Aerospace Science and Technology

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Research on the mixing characteristics of a cavity based supersonic combustion chamber coupled with secondary recirculation jets

Dai,

Chen,

Kong

2024

International Journal of Hydrogen Energy

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Active wake control of a bluff body with blunt trailing edge using incompressible numerical simulations

J. P.,

Nair,

Narayanan

2024

Physics of Fluids

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The flow over a bluff body with a blunt trailing edge has been extensively studied due to its relevance in underwater vehicles, such as submarines and torpedoes, where wake control is critical for optimizing stealth and reducing detectability. However, the specific effects of jet blowing and suction at the rear of D-shaped bluff bodies on wake dynamics have not been adequately explored. Four configurations—balanced inversion (BI), opposite injection–suction (OIS), interleaved injection–suction (IIS), and double injection–double suction (DIDS)—were examined, each with five velocity ratios (0.5, 1, 1.5, 2, 2.5) where the velocity ratio (u/u∞) is the ratio of freestream velocity to injection/suction velocity with slits evenly spaced along the rear end of the bluff body. The results revealed that the BI configuration, with symmetric suction and injection, effectively stabilized the wake and reduced drag by 26% at an optimal velocity ratio of u/u∞ = 1.5. Conversely, higher velocity ratios led to the reemergence of vortex shedding and increased drag. The OIS configuration demonstrated a complex interplay of vortex interactions, particularly at higher velocity ratios, resulting in a substantial rise in drag (up to 101.38% at u/u∞ = 2.5). The IIS configuration yielded more predictable vortex patterns and reduced drag at lower velocity ratios, although chaotic flow reemerged at higher ratios. The DIDS configuration significantly altered wake dynamics, deflecting vortices, narrowing the wake, and increasing drag at higher velocity ratios, with a notable shift in vortex shedding frequency. These findings contribute to understanding wake control techniques, offering potential benefits for the design of stealthier underwater vehicles.

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Effect of jet splitting using passive strut on the performance and thermoacoustic characteristics of a scramjet combustor

Cited by 3 publications

References 112 publications

Effect of injection location on mixing characteristics with pylon downstream of cavity

Effect of injection location on mixing characteristics with pylon downstream of cavity

Research on the mixing characteristics of a cavity based supersonic combustion chamber coupled with secondary recirculation jets

Active wake control of a bluff body with blunt trailing edge using incompressible numerical simulations

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