Experimental determination of cooling performance on heat sinks with cone-jet electrospray mode

KABAKUŞ, Abdüssamed; Yakut, Kenan; Özakın, Ahmet Numan; Yakut, Rıdvan

doi:10.1016/j.jestch.2020.11.004

Cited by 12 publications

(1 citation statement)

References 27 publications

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“…The heat transfer performance was best at a fin height of 0.67m. Abdüssamed Kabakus et al [11] The cooling performance of electrospray cooling on smooth surface heat exchangers and finned heat exchangers was examined. The surface temperature, enhancement factor, and fin efficiency factor were studied between the smooth and finned heat exchangers.…”

Section: Introductionmentioning

confidence: 99%

Numerical Investigation of Heat Transfer Enhancement in Trapezoidal-Fin Heat Sinks

Chang

2024

Preprint

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The objective of this work is to analyze the improvement of heat transfer in trapezoidal fin heat exchangers using numerical simulation. Heat exchangers are essential components frequently used in contemporary electronic gadgets to effectively disperse heat produced by high-power components. Nevertheless, as electronic devices continue to advance and become more powerful, the heat transfer capacity of heat exchangers is facing more requirements, therefore requiring enhanced heat dissipation efficiency. Afterwards, various fin angles were adjusted, and the heat transmission efficiency was compared. Modifying the angles can significantly improve the effi-ciency of convective heat dissipation. Moreover, it has been found that employing an optimized trapezoidal fin structure can further enhance the efficiency of heat transfer. The results indicate that trapezoidal fin heat exchangers provide superior heat dissipation efficiency compared to conventional heat exchangers. This is important for enhancing the thermal dissipation capabili-ties of electrical gadgets, hence guaranteeing steady functionality and extending their longevity. Subsequent study might explore supplementary methods to boost heat transmission in different heat exchanger configurations in order to meet the growing requirements for heat dissipation.

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Section: Introductionmentioning

confidence: 99%