Gas Injection into Second Mode Instability on a 7 degree Cone at Mach 7

Kerth, Philip; Wylie, Sebastien; Ravichandran, Raghul; McGilvray, Matthew

doi:10.2514/6.2022-3856

Cited by 4 publications

(15 citation statements)

References 44 publications

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“…Transition onset for the transpiration cooling of cylindrically or spherically blunted bodies is an area of active research. Recent preliminary studies have showed that that mass injection on an axisymmetric nosetip may delay transition with moderate mass fluxes and light gases [34].…”

Section: Laminar Solvermentioning

confidence: 99%

“…The only recent work on leading edges with distributed outflow have used slots [32], variable permeability [33], or multiple plenums and injectors [34,35]. These studies did not consider leading edge-only injection, and only [34] was carried out in a hypersonic facility, and took heat flux augmentation measurements. The rest were carried out in heated subsonic facilities, or in plasma facilities [36], taking temperature measurements only.…”

Section: Introductionmentioning

confidence: 99%

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Aerodynamic Effects and Heat Flux Augmentation of a Transpiration Cooled Hypersonic Sharp Leading Edge

Ravichandran

Doherty

McGilvray

et al. 2023

AIAA SCITECH 2023 Forum

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This paper presents numerical results investigating the aerodynamic and aerothermal effects of mass injection applied to hypersonic sharp leading edges, in the context of active thermal protection systems. A numerical study was carried out using Eilmer to investigate the coupling of leading edge radius and mass injection on heat flux and drag augmentations. Radii from 1 mm to 25 mm were considered at blowing parameters from 0.0 to 1.5 on 2D planar leading edge at a fixed trajectory point. Drag was found to barely change with mass injection, whereas heat flux was found to significantly reduce at the leading edge. The leading edge heat flux distribution could be collapsed, and therefore predicted, straightforwardly. Film cooling predictive methods in literature for other mass injection scenarios were found to collapse the heat flux and concentration comfortably with empirical modifications.

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Section: Laminar Solvermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Aerodynamic Effects and Heat Flux Augmentation of a Transpiration Cooled Hypersonic Sharp Leading Edge

Ravichandran

Doherty

McGilvray

et al. 2023

AIAA SCITECH 2023 Forum

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“…1, has been previously employed in the same configuration and injector by Kerth. 41,42 The model has a straight, sharp nose tip with a nose radius smaller than 0:05 mm as given by the manufacturer and is instrumented with high frequency differential pressure sensors (PCB132A31 and PCB132B38) and in-house manufactured thin film gauges (TFG). 43,44 To achieve a smooth surface finish, outer radii of the model were machined with a 0.02 mm tolerance, and individual segments of the model were lathed into the outer conical shape after they were assembled.…”

Section: Experimental Setup a Test Model With Gas Injectionmentioning

confidence: 99%

“…Their method to infer transition onset is based on comparing theoretically obtained laminar heat flux levels to averaged thermocouple data. 14 Work by Kerth et al 34 has dealt with a similar gas injection scenario, wherein transition was inferred from schlieren images and thin film gauges. Hereby, transition took place far away from the injection location.…”

Section: Introductionmentioning

confidence: 99%

“…Accordingly, schlieren, surface pressure, and heat flux measurements were all in good agreement with respect to boundary layer stability results. 34 It is however assumed that the contrasting injector location in the work presented below-a porous segment within the cone frustum near the location of natural transition-introduces a significantly more complex flowfield. This makes it harder to obtain physical quantities to infer any interpretation about the local stability state of the boundary layer.…”

Section: Introductionmentioning

confidence: 99%

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Displacement of hypersonic boundary layer instability and turbulence through transpiration cooling

Kerth,

Le Page,

Wylie

et al. 2024

Physics of Fluids

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Hypersonic boundary-layer transition onset is commonly characterized in wind tunnel experiments by measuring the surface heat transfer rise above the laminar level. Techniques such as infrared thermography and thin film gauges are routinely used in the field. However, when an interfering cooling effect is present due to foreign gas transpiration, these methods are known to be inadequate. This study uses a 7° half-angle cone at Mach 7 with helium or nitrogen injection through a porous segment within the model frustum. The injector spans 60° in azimuth and is located 300 mm from the sharp nose tip, close to the onset of natural boundary-layer transition. Nitrogen and helium injection reduce the surface heat flux below the laminar level for up to 50 mm downstream of the injector. Comparisons to schlieren images and pressure measurements indicate an advance of transition. Optical diagnostics reveal how instabilities are pushed away from the model surface by the injected gas. This is found through spectral analysis of schlieren images and focused laser differential interferometry signals, which revealed further information about how inaccuracies of detecting transition with surface gauges under the influence of transpiration cooling originate.

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Fluid Ablation Interactions on a Compression Ramp at Mach 8

Dungan,

Baskaya,

Hickel

et al. 2024

AIAA SCITECH 2024 Forum

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Direct numerical simulations (DNS) are performed over a 15°compression ramp undergoing ablation at Mach 8 to examine fluid-ablation interactions (FAI) on transitional high-speed boundary layers. The experiments at these conditions with a rigid wall are first numerically replicated for a laminar flow. Heating streaks are introduced by introducing perturbations in the baseflow informed by prior stability calculations. The ramp is then replaced by a low-temperature ablator in our DNS and the interaction of the streaks with the recessing ablator surface are examined. Different approaches from two independently developed solvers are used to study this problem. Overall, both solvers provide qualitatively and quantitatively very similar results; however, differences in streak amplification and mass blowing magnitudes are observed. We discuss the difficulties in accurately predicting ablation and present the first findings regarding its influence on the perturbation evolution and transition to turbulence for this configuration.

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Gas Injection into Second Mode Instability on a 7 degree Cone at Mach 7

Cited by 4 publications

References 44 publications

Aerodynamic Effects and Heat Flux Augmentation of a Transpiration Cooled Hypersonic Sharp Leading Edge

Aerodynamic Effects and Heat Flux Augmentation of a Transpiration Cooled Hypersonic Sharp Leading Edge

Displacement of hypersonic boundary layer instability and turbulence through transpiration cooling

Fluid Ablation Interactions on a Compression Ramp at Mach 8

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