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Experimental Study on the Thermal Performance of a Finned Metal Foam Heat Sink with Phase Change Material

Yongping Huang, Qing Sun, Feng Yao, Chengbin Zhang

2020Heat Transfer Engineering58 citationsDOI

Abstract

The present research conducts an experimental study on the thermal performance of the finned metal foam (FMF) heat sinks with phase change material. The dynamic temperature response of an FMF heat sink is analyzed and compared with the corresponding finned heat sink. The effects of porosity and pore density on the thermal performance of FMF heat sinks are analyzed. Furthermore, the enhancement ratio and heat exchange capability are evaluated for the optimization of FMF heat sinks. The results indicate that the thermal conduction enhancement caused by the addition of metal foam exceeds the heat transfer loss arising from the suppression of natural convection. A decrease in porosity leads to an increase in heat exchange capability and contributes to a higher enhancement ratio. Considering the tradeoff between the low operating temperature and longer duration of reliability, the porosity of 0.9 is the best choice for FMF heat sinks. Though the porosity is identical, the thermal performance of an FMF heat sink is better with the increase of pore density. Considering the maximum energy charging capacities are identical, the FMF heat sink with larger pore density is recommended for practical engineering applications.

Topics & Concepts

Heat sinkMaterials sciencePorosityMetal foamThermal conductionHeat transferHeat spreaderPhase-change materialThermalPlate fin heat exchangerComposite materialThermodynamicsNatural convectionHeat transfer coefficientPlate heat exchangerPhysicsHeat and Mass Transfer in Porous MediaPhase Change Materials ResearchHeat Transfer and Optimization
Experimental Study on the Thermal Performance of a Finned Metal Foam Heat Sink with Phase Change Material | Litcius