LES investigation of a H2-fueled supersonic combustor: A two-strut injection approach

Efficient combustion schemes are increasingly vital as scramjet expansion into higher Mach numbers emerges as a leading trend. Thus, in the current work, an LES investigation on mixing improvement caused by a two-strut injector has been carried out for a Mach 2.5 model H2 fueled scramjet combustor....

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Bibliographic Details
Published in:International journal of hydrogen energy 2024-11, Vol.91, p.1170-1183
Main Authors: Choubey, Gautam, Solanki, Malhar, Tripathi, Sumit, Kaushik, Mrinal
Format: Article
Language:English
Subjects:
H2 fuel
LES
Mixing enhancement
Supersonic combustion
Two-strut
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Summary:Efficient combustion schemes are increasingly vital as scramjet expansion into higher Mach numbers emerges as a leading trend. Thus, in the current work, an LES investigation on mixing improvement caused by a two-strut injector has been carried out for a Mach 2.5 model H2 fueled scramjet combustor. The research focuses on understanding the flow field, flame lift-off characteristics and combustion stabilization in the two-strut combustor. The simulation results indicate that the two-strut configuration exhibits a broader pattern of temperature fluctuation, implying a more efficient spread of combustion downstream compared to the single-strut configuration. Analysis of Fast Fourier Transform (FFT) pressure data reveals inherent instability in the combustion processes for two-strut under supersonic air inflow conditions. The findings also demonstrate the significant improvement in mixing performance achieved by the two-strut design compared to conventional struts. The primary mechanism is a two-strut's ability to create significant streamwise vorticity, which can improve the mixing of H2 fuel with supersonic air. According to the mixing and total pressure loss plots, a two-strut produces a rapid complete mixing at 0.182 m at the expense of a minute rise in total pressure loss. Finally, the entropy change plot reveals that the two-strut configuration exhibits a reduced entropy change compared to the single-strut configuration. This is mainly due to enhanced air-fuel mixing, efficient shock wave management, and enhanced flame stabilization in the two-strut setup. These factors collectively contribute to reduced irreversibilities and disorder in the flow, leading to lower entropy within the system. [Display omitted] •LES investigation has been carried out for a Mach 2.5 model H2 fueled scramjet combustor.•For two-strut, the shock train is unstable and affected by the recirculation zone.•Two-strut arrangement illustrates a more extensive pattern of temperature variation.•The two-strut-induced mixing improvement is more apparent.•The two-strut configuration shows lower entropy change compared to single-strut.
ISSN:0360-3199
DOI:10.1016/j.ijhydene.2024.10.179