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contributor authorMinh Dang
contributor authorIbrahim Hassan
contributor authorSung In Kim
date accessioned2017-05-09T00:28:15Z
date available2017-05-09T00:28:15Z
date copyrightDecember, 2008
date issued2008
identifier issn0098-2202
identifier otherJFEGA4-27349#121103_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/138121
description abstractThermal management as a method of heightening performance in miniaturized electronic devices using microchannel heat sinks has recently become of interest to researchers and the industry. One of the current challenges is to design heat sinks with uniform flow distribution. A number of experimental studies have been conducted to seek appropriate designs for microchannel heat sinks. However, pursuing this goal experimentally can be an expensive endeavor. The present work investigates the effect of cross-links on adiabatic two-phase flow in an array of parallel channels. It is carried out using the three-dimensional mixture model from the computational fluid dynamics software, FLUENT 6.3 . A straight channel and two cross-linked channel models were simulated. The cross-links were located at 1/3 and 2/3 of the channel length, and their widths were one and two times larger than the channel width. All test models had 45 parallel rectangular channels, with a hydraulic diameter of 1.59 mm. The results showed that the trend of flow distribution agrees with experimental results. A new design, with cross-links incorporated, was proposed and the results showed a significant improvement of up to 55% on flow distribution compared with the standard straight channel configuration without a penalty in the pressure drop. Further discussion about the effect of cross-links on flow distribution, flow structure, and pressure drop was also documented.
publisherThe American Society of Mechanical Engineers (ASME)
titleNumerically Investigating the Effects of Cross-Links in Scaled Microchannel Heat Sinks
typeJournal Paper
journal volume130
journal issue12
journal titleJournal of Fluids Engineering
identifier doi10.1115/1.3001093
journal fristpage121103
identifier eissn1528-901X
keywordsFlow (Dynamics)
keywordsChannels (Hydraulic engineering)
keywordsTwo-phase flow
keywordsHeat sinks
keywordsPressure drop
keywordsMicrochannels
keywordsDesign
keywordsMixtures AND Computational fluid dynamics
treeJournal of Fluids Engineering:;2008:;volume( 130 ):;issue: 012
contenttypeFulltext


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