04 · Thermal Analysis

Pin-Fin Heat Sink Characterization

Experimental & Computational Study · Jan to Mar 2026

Convective heat transfer characterization of a bare plate and two pin-fin arrays across free convection, forced laminar, and forced turbulent flow regimes, simulated in Fusion 360.

+89%: Nusselt vs. bare
44.7 to 32.8 °C: surface temp
3: flow regimes

Pin-fin test articles on the heated plate.

Fusion 360 thermal-gradient simulation of the V-pattern.

What

Convective heat transfer characterization of a bare plate and two pin-fin arrays.
Tested across free convection, forced laminar, and forced turbulent flow.

How

Measured Nusselt and Reynolds numbers, heat-transfer coefficients, and surface temperatures.
Fit a power-law Nu to Re correlation and verified against a Fusion 360 thermal simulation.

Results

V-pattern array raised the Nusselt number ~90% over the bare plate.
Surface temperature dropped from 44.7 °C to 32.8 °C at equal power.
Fit Nu = 0.220 · Re⁰·⁶⁷⁸; applicable to avionics cooling.

Tools & methods

Fusion 360 Thermal
Heat transfer
Power-law fitting
Lab instrumentation

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