Tom B. Fisher scite author profile

Tom B. Fisher

5Publications

37Citation Statements Received

123Citation Statements Given

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119

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University of Manchester

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Experimental characterization of the hypersonic flow around a cuboid

et al. 2020

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Understanding the hypersonic flow around faceted shapes is important in the context of the fragmentation and demise of satellites undergoing uncontrolled atmospheric entry. To better understand the physics of such flows, as well as the satellite demise process, we perform an experimental study of the Mach 5 flow around a cuboid geometry in the University of Manchester High SuperSonic Tunnel. Heat fluxes are measured using infrared thermography and a 3D inverse heat conduction solution, and flow features are imaged using schlieren photography. Measurements are taken at a range of Reynolds numbers from 40.0 × 10 3 to 549 × 10 3. The schlieren results suggest the presence of a separation bubble at the windward edge of the cube at high Reynolds numbers. High heat fluxes are observed near corners and edges, which are caused by boundary-layer thinning. Additionally, on the side (off-stagnation) faces of the cube, we observe wedge-shaped regions of high heat flux emanating from the windward corners of the cube. We attribute these to vortical structures being generated by the strong expansion around the cube's corners. We also observe that the stagnation point of the cube is off-centre of the windward face, which we propose is due to sting flex under aerodynamic loading. Finally, we propose a simple method of calculating the stagnation point heat flux to a cube, as well as relations which can be used to predict hypersonic heat fluxes to cuboid geometries such as satellites during atmospheric re-entry.

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Free-Flight Testing of Hypersonic Edney Shock Interactions

Fisher

Quinn

Smith

2018

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An experimental sensitivity comparison of the schlieren and background-oriented schlieren techniques applied to hypersonic flow

Fisher

Quinn

Smith

2019

Meas. Sci. Technol.

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Numerical and experimental studies of the hypersonic flow around a cube at incidence

et al. 2021

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Correction to: Experimental characterization of the hypersonic flow around a cuboid

et al. 2020

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Tom B. Fisher

Experimental characterization of the hypersonic flow around a cuboid

Free-Flight Testing of Hypersonic Edney Shock Interactions

An experimental sensitivity comparison of the schlieren and background-oriented schlieren techniques applied to hypersonic flow

Numerical and experimental studies of the hypersonic flow around a cube at incidence

Correction to: Experimental characterization of the hypersonic flow around a cuboid

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