Theoretical Study of Mixed Convection Cooling of Microprocessor Using CuO Nanofluid.
Mohsen Elkhouly, M., Sultan, G., ElBouz, M. (2021). Theoretical Study of Mixed Convection Cooling of Microprocessor Using CuO Nanofluid.. EKB Journal Management System, 46(2), 12-19. doi: 10.21608/bfemu.2021.175682
Mohamed Mohsen Elkhouly; Gamal Ebrahim Sultan; Moustafa Aly ElBouz. "Theoretical Study of Mixed Convection Cooling of Microprocessor Using CuO Nanofluid.". EKB Journal Management System, 46, 2, 2021, 12-19. doi: 10.21608/bfemu.2021.175682
Mohsen Elkhouly, M., Sultan, G., ElBouz, M. (2021). 'Theoretical Study of Mixed Convection Cooling of Microprocessor Using CuO Nanofluid.', EKB Journal Management System, 46(2), pp. 12-19. doi: 10.21608/bfemu.2021.175682
Mohsen Elkhouly, M., Sultan, G., ElBouz, M. Theoretical Study of Mixed Convection Cooling of Microprocessor Using CuO Nanofluid.. EKB Journal Management System, 2021; 46(2): 12-19. doi: 10.21608/bfemu.2021.175682

Theoretical Study of Mixed Convection Cooling of Microprocessor Using CuO Nanofluid.

MEJ- Mansoura Engineering Journal
Article 23, Volume 46, Issue 2, June 2021, Page 12-19  XML PDF (1.31 MB)
Document Type: Research Studies
DOI: 10.21608/bfemu.2021.175682
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Authors
Mohamed Mohsen Elkhouly email 1; Gamal Ebrahim Sultan2; Moustafa Aly ElBouz3
1Master student in Mansoura university
2a Professor at the Department of Mechanical Power Engineering, Mansoura University, Mansoura, Egypt
3Mechanical Engineering Department, University of Mansoura, CO35516, Egypt
Abstract
Cooling of electronic equipments is playing an important role in the last decades as a world experiences a technological boom in all fields. In this study, a numerical study for mixed convection cooling of microprocessor is investigated by the use of pure water and CuO-water nanofluid at six different volume concentrations. The model is built, meshed and simulated by Ansys Fluent Package 16.0 and a mesh independence test is carried out. The study is performed by changing heat load (115W, 130W), inlet velocity, at different concentrations of nanofluids (Pure water, 0.5%, 0.86%, 1.5%, 2.25%, 3.5%, 5%). The present results showed that using CuO-water nanofluids over pure water provides an enhancement in heat transfer characteristics. The dimensionless parameters such as Nusselt number, Archimedes number, Prandtl number, friction factor and dimensionless temperature are studied and correlated. An enhancement of 36.5% in thermal hydraulic performance is found at 0.50% volume fraction at Re = 1679.212. The data are correlated with maximum error of 4.1%.
Keywords
Thermal management; nanofluids; CFD; electronics cooling; microprocessor
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