Introduce a novel configurationof microchannel andhigh-conductivity insertsfor cooling of disc-shaped electronic components
International Journal of Numerical Methods for Heat & Fluid Flow
ISSN: 0961-5539
Article publication date: 7 June 2019
Issue publication date: 22 May 2020
Abstract
Purpose
Electronic components’ efficiency is the cornerstone of technology progress. The cooling process used for electronic components plays a main role in their performance. Embedded high-conductivity material and provided microchannel heat sink are two common cooling methods. The former is expensive to implement while the latter needs micro-pump, which consumes energy to circulate the flow. The aim of this study is providing a new configuration and method for improving the performance of electronic components.
Design/methodology/approach
To manage these challenges and improve the cooling efficiency, a novel method named Hybrid is presented here. Each method's performance has been investigated, and the results are widely compared with others. Considering the micro-pump power, the supply of the microchannel flow and the thermal conductivity ratio (thermal conductivity ratio is defined as the ratio of thermal conductivity of high thermal conductivity material to the thermal conductivity of base solid), the maximum disk temperature of each method was evaluated and compared to others.
Findings
The results indicated that the Hybrid method can reduce the maximum disk temperature up to 90 per cent compared to the embedded high thermal conductivity at the same thermal conductivity ratio. Moreover, the Hybrid method further reduces the maximum disk temperature up to 75 per cent compared to the microchannel, at equivalent power consumption.
Originality/value
The information in this research is presented in such a way that designers can choose the desired composition, the limited amount of consumed energy and the high temperature of the component. According to the study of radial-hybrid configuration, the different ratio of microchannel and materials with a high thermal conductivity coefficient in the constant cooling volume was investigated. The goal of the investigation was to decrease the maximum temperature of a plate on constant energy consumption. This aim has been obtained in the radial-hybrid configuration.
Keywords
Citation
Dadsetani, R., Sheikhzadeh, G.A., Hajmohammadi, M.R. and Safaei, M.R. (2020), "Introduce a novel configurationof microchannel andhigh-conductivity insertsfor cooling of disc-shaped electronic components", International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 30 No. 6, pp. 2845-2859. https://doi.org/10.1108/HFF-02-2019-0105
Publisher
:Emerald Publishing Limited
Copyright © 2019, Emerald Publishing Limited