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Motahar, Sadegh, Khodabandeh, Rahmat. (1397). An experimental assessment of nanostructured materials embedded in a PCM-based heat sink for transient thermal management of electronic. نشریه علمی دانشگاه سیستان و بلوچستان, 6(2), 96-103. doi: 10.22111/tpnms.2018.22225.1133
Sadegh Motahar; Rahmat Khodabandeh. "An experimental assessment of nanostructured materials embedded in a PCM-based heat sink for transient thermal management of electronic". نشریه علمی دانشگاه سیستان و بلوچستان, 6, 2, 1397, 96-103. doi: 10.22111/tpnms.2018.22225.1133
Motahar, Sadegh, Khodabandeh, Rahmat. (1397). 'An experimental assessment of nanostructured materials embedded in a PCM-based heat sink for transient thermal management of electronic', نشریه علمی دانشگاه سیستان و بلوچستان, 6(2), pp. 96-103. doi: 10.22111/tpnms.2018.22225.1133
Motahar, Sadegh, Khodabandeh, Rahmat. An experimental assessment of nanostructured materials embedded in a PCM-based heat sink for transient thermal management of electronic. نشریه علمی دانشگاه سیستان و بلوچستان, 1397; 6(2): 96-103. doi: 10.22111/tpnms.2018.22225.1133

An experimental assessment of nanostructured materials embedded in a PCM-based heat sink for transient thermal management of electronic

Challenges in Nano and Micro Scale Science and Technology
مقاله 3، دوره 6، شماره 2، مهر 2018، صفحه 96-103    اصل مقاله (826.53 K)
نوع مقاله: Original Research Paper
شناسه دیجیتال (DOI): 10.22111/tpnms.2018.22225.1133
نویسندگان
Sadegh Motahar* 1؛ Rahmat Khodabandeh2
1Faculty of Engineering, University of Shahreza
2Department of Energy Technology, KTH Royal Institute of Technology, Sweden
چکیده
In the present paper, an experimental assessment was performed on the transient thermal performance of a heat sink filled by a phase change material (PCM) and PCM embedded with carbon nanofibers (CNFs) and titania (TiO2) nanoparticles as nanostructured materials. In order to enhance the thermal conductivity of PCM, CNFs and TiO2 nanoparticles at different loadings (0.5wt. % and 2 wt.% of CNFs and 2 wt.% and 4 wt.% TiO2) were dispersed by two-step method in to the molten PCM. The thermal conductivity and viscosity measurements showed an enhancement in composite thermal conductivity as well as an increment in viscosity. The heat sink was filled with PCM, PCM/CNF and PCM/TiO2 and experiments were accomplished by inputting power ranging from 3 W to 8 W. Results showed that filling the heat sink with PCM delayed the time to reach a typical temperature of 35°C by up to 110% for the power level of 8 W, while adding 2 wt.% of CNFs reduced this time by 15% and 4 wt.% of TiO2 nanoparticles improved by 2%. Generally, dispersion of TiO2 led to lower heat sink transient temperatures. However, adding 2 wt.% of CNFs and 4 wt.% TiO2 nanoparticles in to PCM at power level of 8 W raised the steady operation temperature by 11°C and 0.3°C, respectively.
کلیدواژه‌ها
heat sink؛ PCM؛ nanostructured material؛ thermal conductivity؛ transient operation
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