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March 7, 2026Open Access

Improvement of the heat exchange characteristics of parallel corrugated finned tubes by perforation

Key Points

The aim is to improve the heat exchange characteristics of parallel corrugated fins by using perforation.
Analyzed velocity and temperature fields of parallel corrugated fins (PCF) and perforated PCF (PPCF).
Studied the effects of perforation position parameter on heat exchange performance under varied Reynolds numbers.
Utilized numerical simulation to evaluate convective heat transfer efficiency.
Perforation reduces the thickness of the temperature boundary layer.
PPCF shows enhanced convective heat transfer efficiency compared to PCF.
Optimal heat transfer occurs at a perforation position parameter of Sl = 5/4.

Abstract

To further enhance the heat exchange performance of parallel corrugated fins (PCF), this study proposes perforation on PCF and comparison and analyze the velocity and temperature fields of PCF and perforated PCF(PPCF). It was found that perforation can reduce the thickness of the temperature boundary layer, thereby enhance the convective heat transfer efficiency. Under the operating conditions where Re is 9000-21000, the influence laws of the perforation position parameter Sl on the heat exchange performance were studied. The numerical simulation results show that when Sl = 5/4, the heat transfer enhancement effect of the perforated structure is the best. Based on the field synergy theory, the enhanced heat transfer mechanism of PPCF was analyzed. This research provides a new solution for the structural improvement of PCF.

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Cite This Study

Wu et al. (Thu,) studied this question.

synapsesocial.com/papers/69abc1c65af8044f7a4eac33 https://doi.org/https://doi.org/10.2298/tsci251029020w

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