Litcius/Paper detail

Experimental and numerical investigation of the melting process of aluminum foam/paraffin composite with low porosity

Feng Zhu, Xusheng Hu, Xuecai Wang, Chuan Zhang, Xiaolu Gong

2020Numerical Heat Transfer Part A Applications26 citationsDOI

Abstract

The present article investigates the melting process of aluminum foam/paraffin composite with low porosity by using experimental and numerical methods. Three composites with porosities 67%, 75%, and 84% are compared in terms of temperature variation, interface evolution, and total melting time. The experimental results indicate that the effect of thermal conduction and thermal convection on the melting process is affected greatly by the porosity. In the composite with porosity 84%, the heat flux ratio of convective heat transfer tends to be larger than 20%. Furthermore, the 3 D macro models are also established by using equilibrium model and non-equilibrium model.

Topics & Concepts

PorosityMaterials scienceComposite numberMetal foamComposite materialHeat transferThermal conductionAluminiumConvectionHeat fluxThermodynamicsPhysicsPhase Change Materials ResearchRadiative Heat Transfer StudiesHeat and Mass Transfer in Porous Media
Experimental and numerical investigation of the melting process of aluminum foam/paraffin composite with low porosity | Litcius