Title : ( Fabrication and experimental characterization of a modified heat-sink based on a semi-active/passive cooling strategy with fluid flow and nano-enhanced phase change material )
Authors: Faezeh Najafi , Darya Ramezani , Sareh Sheykh , alireza aldaghi , Amin Taheri , Mohammad Sardarabadi , Mohammad Passandideh-Fard ,Access to full-text not allowed by authors
Abstract
This paper aims to assess the thermal management of a printed circuit board (PCB), as an electronic chipset, with the aid of a mini-channel heat-sink utilizing fluid flow and nano-enhanced phase change materials (NPCMs), as a semi-active/passive technique. The effects of various parameters such as heat fluxes (4, 7, and 10 kW/m2), flow rates (50, 80, and 110 ml/min), PCM types (paraffin 56–58 °C and 46–48 °C), and NPCM types (TiO2-PCM and Fe3O4-PCM) on the transient temperature, thermal resistance, and thermal effectiveness of the heat-sink are disclosed. After successful demonstration of 50 ml/min as the flow rate, the PCB temperature in the case of the heat-sink with the simultaneous fluid flow (50 ml/min) and PCM (paraffin 56–58 °C) and PCM (paraffin 46–48 °C) decreased by 6.5 and 9.5 °C, respectively, in comparison with the water-based heat-sink. Results show that by dispersing TiO2 and Fe3O4 nanoparticles into pure paraffin, the steady-state temperature of the PCB decreased and the heat-sink cooling ability is enhanced as compared to the pure paraffin. The highest temperature reduction (17.9-13.2 °C) and minimum thermal resistance (2.62–3.03 ) in different cooling systems is seen in the cases of heat-sink with TiO2-PCM (4% wt.) and Fe3O4-PCM (8% wt.).
Keywords
, Semi, active/passive Electronic chipset Fluid flow Paraffin Nano, enhanced phase change materials@article{paperid:1085789,
author = {Najafi, Faezeh and Ramezani, Darya and Sheykh, Sareh and Aldaghi, Alireza and Taheri, Amin and Sardarabadi, Mohammad and Passandideh-Fard, Mohammad},
title = {Fabrication and experimental characterization of a modified heat-sink based on a semi-active/passive cooling strategy with fluid flow and nano-enhanced phase change material},
journal = {International Communication in Heat and Mass Transfer},
year = {2021},
volume = {126},
month = {July},
issn = {0735-1933},
pages = {105371--105371},
numpages = {0},
keywords = {Semi-active/passive
Electronic chipset
Fluid flow
Paraffin
Nano-enhanced phase change materials},
}
%0 Journal Article
%T Fabrication and experimental characterization of a modified heat-sink based on a semi-active/passive cooling strategy with fluid flow and nano-enhanced phase change material
%A Najafi, Faezeh
%A Ramezani, Darya
%A Sheykh, Sareh
%A Aldaghi, Alireza
%A Taheri, Amin
%A Sardarabadi, Mohammad
%A Passandideh-Fard, Mohammad
%J International Communication in Heat and Mass Transfer
%@ 0735-1933
%D 2021