[논문]Graphene nanoplatelets nanofluids thermal and hydrodynamic performance on integral fin heat sink

Arshad, Waqas; Ali, Hafiz Muhammad

doi:10.1016/j.ijheatmasstransfer.2016.10.127

[해외논문] Graphene nanoplatelets nanofluids thermal and hydrodynamic performance on integral fin heat sink

International journal of heat and mass transfer, v.107, 2017년, pp.995 - 1001

Arshad, Waqas (Corresponding author.) , Ali, Hafiz Muhammad

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Abstract In this work, graphene nanoplatelets nanofluids (GNPs) thermal and hydrodynamic performance is observed experimentally in comparison with distilled water on integral fin heat sink. Water based GNPs nanofluids is used with 10% weight concentration. Experimentation is performed in laminar range at heat flux of 47.96KW/m2, 59.95KW/m2 and 71.94KW/m2. Higher pumping power is noticed for GNPs nanofluids as compared to distilled water. From inlet to outlet of heat sink, rise of local base temperature is observed for both distilled water and GNPs nanofluids. With the increase of heat flux, GNPs nanofluids thermal performance decreases. Using GNPs nanofluids, the lowest base temperature and maximum convective heat transfer enhancement is noted as 36.81°C and 23.91% corresponding to Reynolds number of 972 for heat flux of 47.96KW/m2, respectively. Pumping power requirement depends upon flow rate and heat flux, and it is found to be maximum 0.04W for GNPs nanofluids at heat flux of 47.96KW/m2. Highlights Heat transfer and pumping power of GNPs nanofluid is strongly dependent on heat input. The lowest base temperature is found to be 36.82°C using GNPs nanofluids. The lowest convective thermal resistance is observed 0.049K/W using GNPs nanofluids. The maximum pumping power is observed 0.041W at heat flux of 47.96KW/m2. 21.51%, 15.38% and 13.76% CHT enhancement is found at heat flux of 47.96KW/m2, 59.95KW/m2, and 71.94KW/m2.

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[해외논문] Graphene nanoplatelets nanofluids thermal and hydrodynamic performance on integral fin heat sink

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[해외논문] Graphene nanoplatelets nanofluids thermal and hydrodynamic performance on integral fin heat sink

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