# Experimental and Numerical Study of the Hydrothermal Performance of Micro Pin Fin Heat Sinks with Streamwise-Varying Height

**Authors:** Hang Gao, Dalei Jing

PMC · DOI: 10.3390/ma19040654 · 2026-02-08

## TL;DR

This study compares different micro pin fin heat sink designs to improve cooling performance by varying fin heights along the flow direction.

## Contribution

The novelty lies in proposing and evaluating MPFHS designs with streamwise-varying pin fin heights to enhance hydrothermal performance.

## Key findings

- MPFHS designs with linearly increasing or decelerating height show lower heat sink temperatures compared to uniform height designs.
- Comprehensive performance of decreasing height designs outperforms uniform height at low flow rates, while decelerating height surpasses at higher flow rates.
- As flow rate increases, comprehensive performance of decreasing height designs decreases, while increasing height designs improve.

## Abstract

To enhance the hydrothermal performance of micro pin fin heat sinks (MPFHSs), this paper proposes five MPFHSs with different streamwise pin fin height variation modes and experimentally and numerically compares their hydrothermal performance, including pressure drop, maximum and average temperatures, and comprehensive performance evaluation criteria. The results indicate that, taking the uniform PFs height (UH) design as a reference, the designs with linearly increasing streamwise PFs height (LIH) and increasing streamwise PFs height with decelerating growth rate (DIH) demonstrate lower heat sink temperatures. Conversely, the designs with linearly decreasing streamwise PFs height (LDH) and decreasing streamwise PFs height with accelerating reduction rate (ADH) result in higher heat sink temperature. In addition, the comprehensive performance of LDH and ADH outperforms that of UH at low inlet flow rates, while the DIH surpasses that of UH at higher flow rates. As the inlet flow rate increases from 0.02 L/min to 0.5 L/min, our numerical study shows that the comprehensive performance of LDH and ADH decreases by 14.9% and 6.2%, respectively, whereas that of LIH and DIH increases by 17.4% and 10.2%, respectively. This finding provides insights to improve the hydrothermal performance of MPFHS.

## Full-text entities

- **Genes:** ADH1A (alcohol dehydrogenase 1A (class I), alpha polypeptide) [NCBI Gene 124] {aka ADH1}
- **Diseases:** DIH (MESH:D006130), injury to (MESH:D014947), HS (MESH:C567159), LIH (MESH:C000719188)
- **Chemicals:** aluminum (MESH:D000535), Aluminum 6061 (-), HS (MESH:D006859), water (MESH:D014867), copper (MESH:D003300)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12941754/full.md

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Source: https://tomesphere.com/paper/PMC12941754