Hydraulic and thermal performances of metal foam and pin fin hybrid heat sink

Hydraulic and thermal performances of metal foam and pin fin hybrid heat sink

•A novel design of metal foam and pin fin hybrid (MFPFH) heat sink is presented.•Thermal performance of MFPFH heat sink is much better than metal foam heat sink and pin fin heat sink.•The optimal morphological parameter exists for designing the MFPHH heat sink.•Effects of thermal contact resistance...

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Bibliographic Details
Published in:Applied thermal engineering Vol. 166; p. 114665
Main Authors: Li, Yongtong, Gong, Liang, Xu, Minghai, Joshi, Yogendra
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 05-02-2020
Elsevier BV
Subjects:
Computational fluid dynamics
Conduction heating
Conductive heat transfer
Contact resistance
Electronic devices
Flow resistance
Fluid flow
Heat conductivity
Heat exchangers
Heat sink
Heat sinks
Heat transfer
Metal foam
Metal foams
Metals
Numerical simulation
Performance evaluation
Pin fin
Pore size
Porosity
Pressure drop
Thermal contact resistance
Thermal energy
Thermal management
Thermal resistance
Numerical simulation
Pin fin
Heat sink
Metal foam
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Summary:•A novel design of metal foam and pin fin hybrid (MFPFH) heat sink is presented.•Thermal performance of MFPFH heat sink is much better than metal foam heat sink and pin fin heat sink.•The optimal morphological parameter exists for designing the MFPHH heat sink.•Effects of thermal contact resistance on the thermal performance of MFPFH heat sink are evaluated. In this study, a metal foam and pin fin hybrid heat sink (MFPFH heat sink) is proposed for thermal management of high powered electronic devices. Thermo-hydraulic performance of MFPFH heat sink is numerically investigated under local thermal non-equilibrium condition, and compared with metal foam (MF) heat sink and traditional pin fin (PF) heat sink. Influences of MF morphological parameters on flow and heat transfer of MFPFH heat sink are analyzed, and the thermal performance ratio is evaluated. Thermal contact resistance between PFs and MF is introduced to explain its effects on the thermal performance of MFPFH heat sink for its practical application. Results indicate that significant heat transfer enhancement is achieved by using the MFPFH heat sink, due to the enhanced heat conduction and the improved heat convection by the common contribution of MF and PFs. Heat transfer characteristics of MFPFH heat sink are more sensitive to foam porosity, and pressure drop to pore size. By simultaneously considering the heat transfer enhancement and flow resistance increase, the thermal performance ratio of MFPFH heat sink is 1.6 times higher than the traditional PF heat sink. When thermal contact resistance is 10−3 m2·K/W, the degradation of average Nusselt number is approximately 36%.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2019.114665