Wind Tunnel Experiments with Flexible Plates in Transonic Flows

Jinks, Edward R.; Bruce, Paul J.; Santer, Matthew

doi:10.2514/6.2016-1553

Cited by 4 publications

(3 citation statements)

References 12 publications

(12 reference statements)

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“…These dimensions were selected to match the parameters used in a related experimental study in a high speed wind tunnel, the results of which are reported elsewhere [18]. The stream-wise length of the flexible region (200 mm) corresponds to a bump length l b = 0.2c for a nominal aerofoil chord of 1 m. Full fixation against translation and rotation is imposed on the upstream and downstream ends of the flexible region.…”

Section: Structural Modellingmentioning

confidence: 99%

Optimisation of adaptive shock control bumps with structural constraints

Jinks

Bruce

Santer

2018

Aerospace Science and Technology

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This paper presents the results from a study to design an adaptive shock control bump for a transonic aerofoil. An optimisation framework comprising aerodynamic and structural computational tools has been used to assess the performance of candidate adaptive bump geometries based on a novel surfacepressure-based performance metric. The geometry of the resultant design is a unique feature of its adaptivity; being strongly influenced by the (passive) aerodynamic pressure forces on the flexible surface as well as the (active) displacement constraints. This optimal geometry bifurcates the shock-wave and carefully manages the recovering post-shock flow to maximise pressure-smearing in the shockregion with only a small penalty in L/D for the aerofoil. Short adaptive bumps (with small imposed displacements) generally perform better than taller ones, and maintain their performance advantage for a wide range of bump positions, suggesting good robustness to variations in shock position, which are an inevitable feature of a real-world flight application. Such devices may offer advantages over conventional (fixed geometry) shock control bumps, where optimal performance is achieved with taller devices, at the expense of poor robustness to variations in shock position.

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Section: Structural Modellingmentioning

confidence: 99%

Optimisation of adaptive shock control bumps with structural constraints

Jinks

Bruce

Santer

2018

Aerospace Science and Technology

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“…shockwaves. They can be created either passively through a panel that deflects due to the surrounding flow or actively through the usage of actuators placed beneath the panel that deflect it in a controlled manner [13]. shows the drag reduction in the wake for an airfoil with a SCB compared to a clean airfoil.…”

Section: Subsonic Fsimentioning

confidence: 99%

“…The strength of shock bifurcation can be seen to depend heavily on shock location, and the adverse effect of the bump geometry can be seen in the thickening of the boundary layer past the bump with the eventual formation of a shear layer as marked in Figure 1.6f. However, Jinks et al [13] recently investigated in depth both passive and active flow control methods using SCB, and they recommend additional actuators or limit stops to maintain optimal shapes even when in off-design performance conditions. Overall, there is strong evidence towards SCB as a successful application of FSI in the transonic regime.…”

Section: Subsonic Fsimentioning

confidence: 99%

Compression Ramp Induced Shock-Wave/Turbulent Boundary-Layer Interactions on a Compliant Material

2018

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Oblique Shock Control with Steady Flexible Panels

2020

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Flexible panels deforming under pressure loads have been suggested as a passive form of adaptive oblique shock control. This study investigates oblique shock-boundary layer interactions on a steady flexible panel in a Mach 2.0 flow. Experiments were performed in the Imperial College supersonic wind tunnel, where shock generators were used to produce an oblique shock followed by a corner expansion. A parametric study was conducted, exploring different shock impingement positions and shock-expansion distances. The steady aero-structural response is studied using schlieren photography, static pressure distributions, photogrammetry measurements, and surface oil flow visualisation. Two-dimensional numerical simulations were

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Wind Tunnel Experiments with Flexible Plates in Transonic Flows

Cited by 4 publications

References 12 publications

Optimisation of adaptive shock control bumps with structural constraints

Optimisation of adaptive shock control bumps with structural constraints

Compression Ramp Induced Shock-Wave/Turbulent Boundary-Layer Interactions on a Compliant Material

Oblique Shock Control with Steady Flexible Panels

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