Experimental and numerical study on the heat sink with radial fins and a concentric ring subject to natural convection

This article reports an experimental and numerical study on the orientation effect for a radial heat sink with a circular base, concentric ring, and rectangular fins. Parametric studies are performed to investigate the effects of orientation angle with respect to gravity, various geometric parameter...

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Published inApplied thermal engineering Vol. 90; pp. 345 - 351
Main Authors Li, Bin, Byon, Chan
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 05.11.2015
Subjects
Computational fluid dynamics
Concentric ring
Fins
Fluid flow
Heat sink
Heat sinks
Mathematical models
Natural convection
Nusselt number
Orientation
Radial fins
Thermal engineering
Concentric ring
Natural convection
Heat sink
Radial fins
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Abstract This article reports an experimental and numerical study on the orientation effect for a radial heat sink with a circular base, concentric ring, and rectangular fins. Parametric studies are performed to investigate the effects of orientation angle with respect to gravity, various geometric parameters (fin number, fin length, fin height, and height of the base), Elenbaas number, on Nusselt number. The results show that the influences of fin number and fins length on the orientation effect are significant, whereas the fin height and base height are slightly insignificant. From the numerical and experimental results, it is shown that the horizontally oriented radial heat sinks have better thermal performance than vertically oriented radial heat sink due to the existence of the concentric ring preventing the natural convective upward flow. The present numerical model is shown to predict the experimental results well within error of 4%. Finally, a closed-form correlation for predicting Nusselt number with heat sink design parameters is proposed. •The orientation effect on the thermal performance of radial heat sink is studied.•The effect of various parameters on the Nusselt number is investigated.•The existence of the concentric ring affects thermal performance significantly.•A correlation is suggested for predicting the thermal performance.
AbstractList This article reports an experimental and numerical study on the orientation effect for a radial heat sink with a circular base, concentric ring, and rectangular fins. Parametric studies are performed to investigate the effects of orientation angle with respect to gravity, various geometric parameters (fin number, fin length, fin height, and height of the base), Elenbaas number, on Nusselt number. The results show that the influences of fin number and fins length on the orientation effect are significant, whereas the fin height and base height are slightly insignificant. From the numerical and experimental results, it is shown that the horizontally oriented radial heat sinks have better thermal performance than vertically oriented radial heat sink due to the existence of the concentric ring preventing the natural convective upward flow. The present numerical model is shown to predict the experimental results well within error of 4%. Finally, a closed-form correlation for predicting Nusselt number with heat sink design parameters is proposed.
This article reports an experimental and numerical study on the orientation effect for a radial heat sink with a circular base, concentric ring, and rectangular fins. Parametric studies are performed to investigate the effects of orientation angle with respect to gravity, various geometric parameters (fin number, fin length, fin height, and height of the base), Elenbaas number, on Nusselt number. The results show that the influences of fin number and fins length on the orientation effect are significant, whereas the fin height and base height are slightly insignificant. From the numerical and experimental results, it is shown that the horizontally oriented radial heat sinks have better thermal performance than vertically oriented radial heat sink due to the existence of the concentric ring preventing the natural convective upward flow. The present numerical model is shown to predict the experimental results well within error of 4%. Finally, a closed-form correlation for predicting Nusselt number with heat sink design parameters is proposed. •The orientation effect on the thermal performance of radial heat sink is studied.•The effect of various parameters on the Nusselt number is investigated.•The existence of the concentric ring affects thermal performance significantly.•A correlation is suggested for predicting the thermal performance.
Author Li, Bin
Byon, Chan
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  surname: Byon
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  email: cbyon@ynu.ac.kr
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Keywords Concentric ring
Natural convection
Heat sink
Radial fins
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Snippet This article reports an experimental and numerical study on the orientation effect for a radial heat sink with a circular base, concentric ring, and...
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SubjectTerms Computational fluid dynamics
Concentric ring
Fins
Fluid flow
Heat sink
Heat sinks
Mathematical models
Natural convection
Nusselt number
Orientation
Radial fins
Thermal engineering
Title Experimental and numerical study on the heat sink with radial fins and a concentric ring subject to natural convection
URI https://dx.doi.org/10.1016/j.applthermaleng.2015.06.083
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