What question did this study set out to answer?

The aim is to validate the single-blow method for assessing heat transfer in complex geometries.

April 27, 2026Open Access

Numerical Assessment of Single-Blow Method for Evaluating Heat Transfer Performance of Complex Surfaces

Key Points

The aim is to validate the single-blow method for assessing heat transfer in complex geometries.
Numerical validation of the single-blow method through direct numerical simulations (DNS).
Testing two types of pin-fin configurations before and after optimization.
Comparison of heat transfer coefficients and pressure drop between experiments and simulations.
Heat transfer coefficients from the single-blow method align closely with DNS results at Reynolds number around 350.
Some pressure drop discrepancies between methods were noted.
Optimization generally improves the analogy factors in both simulation and experimental results.

Abstract

This study numerically validates the single-blow method for evaluating heat transfer performance in complex surface geometries. Two types of pin-fin configurations—before and after shape optimization—were tested using both experiments and direct numerical simulations (DNS). Heat transfer coefficients obtained by the single-blow method showed excellent agreement with DNS results at Reynolds number around 350, while some discrepancies are confirmed in a pressure drop. We confirmed the analogy factors evaluated in both simulation and experiment are commonly improved after optimization. The proposed approach enables efficient and non-intrusive thermal assessment of complex geometries, offering a reliable method for design and validation of advanced heat transfer surfaces.

Numerical Assessment of Single-Blow Method for Evaluating Heat Transfer Performance of Complex Surfaces

Key Points

Abstract

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