Optimization of Finned Heat Sinks for Impingement Cooling of Electronic Packages

Y. Kondo; M. Behnia; W. Nakayama; H. Matsushima

Source: Journal of Electronic Packaging:;1998:;volume( 120 ):;issue: 003::page 259

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DOI: 10.1115/1.2792631

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The study of optimization of finned heat sinks for impingement cooling of electronic components was undertaken. The procedure was based on a semiempirical zonal approach to the determination of thermal resistance as well as pressure drop. To test the validity of the model’s predictions, experiments and CFD (computational fluid dynamics) simulations were performed. The results provided support for the approach. The model enables cost-effective design calculations to be performed for the optimization of heat sinks. We performed such calculations to optimize an LSI heat sink in consideration of sixteen design parameters, including fin thickness, fin spacing, fin height, and flow-orifice dimensions. For the particular application considered in our study, the optimum fin thickness was found to be 0.15 mm. The characteristics and limitations of air cooling for such applications were investigated under various conditions.

keyword(s): Impingement cooling , Optimization , Heat sinks , Electronic packages , Thickness , Computational fluid dynamics , Design , Electronic components , Engineering simulation , Pressure drop , Thermal resistance , Flow (Dynamics) , Cooling AND Dimensions ,

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Optimization of Finned Heat Sinks for Impingement Cooling of Electronic Packages

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contributor author	Y. Kondo
contributor author	M. Behnia
contributor author	W. Nakayama
contributor author	H. Matsushima
date accessioned	2017-05-08T23:56:15Z
date available	2017-05-08T23:56:15Z
date copyright	September, 1998
date issued	1998
identifier issn	1528-9044
identifier other	JEPAE4-26167#259_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/120248
description abstract	The study of optimization of finned heat sinks for impingement cooling of electronic components was undertaken. The procedure was based on a semiempirical zonal approach to the determination of thermal resistance as well as pressure drop. To test the validity of the model’s predictions, experiments and CFD (computational fluid dynamics) simulations were performed. The results provided support for the approach. The model enables cost-effective design calculations to be performed for the optimization of heat sinks. We performed such calculations to optimize an LSI heat sink in consideration of sixteen design parameters, including fin thickness, fin spacing, fin height, and flow-orifice dimensions. For the particular application considered in our study, the optimum fin thickness was found to be 0.15 mm. The characteristics and limitations of air cooling for such applications were investigated under various conditions.
publisher	The American Society of Mechanical Engineers (ASME)
title	Optimization of Finned Heat Sinks for Impingement Cooling of Electronic Packages
type	Journal Paper
journal volume	120
journal issue	3
journal title	Journal of Electronic Packaging
identifier doi	10.1115/1.2792631
journal fristpage	259
journal lastpage	266
identifier eissn	1043-7398
keywords	Impingement cooling
keywords	Optimization
keywords	Heat sinks
keywords	Electronic packages
keywords	Thickness
keywords	Computational fluid dynamics
keywords	Design
keywords	Electronic components
keywords	Engineering simulation
keywords	Pressure drop
keywords	Thermal resistance
keywords	Flow (Dynamics)
keywords	Cooling AND Dimensions
tree	Journal of Electronic Packaging:;1998:;volume( 120 ):;issue: 003
contenttype	Fulltext

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