Corey Woodcock scite author profile

In this paper, we present an experimental and numerical study on a Piranha Pin Fin (PPF) micro scale heat sinks. The PPFs were designed to enhance heat transfer by manipulating the flow field, selectively venting the fluid, and adding surface area. The hydraulic and thermal performances are studied for Reynolds numbers ranging from 508 to 2114 based on the channel hydraulic diameter. A conjugate convection/conduction heat transfer model was developed with COMSOL software, which showed good agreement to experiments. Velocity field and temperature distribution obtained from the model were also discussed to obtain a better understanding of the heat sink performance. Extraction effect was evaluated and analyzed. Friction factor and Nusselt number were obtained and compared with available correlations.

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Liquid-liquid phase separation heat transfer in advanced micro structure

Wei

Plawsky

Woodcock

et al. 2018

International Journal of Heat and Mass Transfer

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Ultra-high heat flux dissipation with Piranha Pin Fins

Woodcock

Ng'oma

Sweet

et al. 2019

International Journal of Heat and Mass Transfer

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“Linking microstructure of membranes and performance”

Sorci

Woodcock

Andersen

et al. 2020

Journal of Membrane Science

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Corey Woodcock

Piranha Pin Fin (PPF) — Advanced flow boiling microstructures with low surface tension dielectric fluids

An investigation of convective heat transfer in microchannel with Piranha Pin Fin

Liquid-liquid phase separation heat transfer in advanced micro structure

Ultra-high heat flux dissipation with Piranha Pin Fins

“Linking microstructure of membranes and performance”

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