Litcius/Paper detail

Melting/solidification of phase change material in a multi-tube heat exchanger in the presence of metal foam: effect of the geometrical configuration of tubes

Atef Chibani, Aissa Dehane, Slimane Merouani, Chérif Bougriou, Djemaa Guerraiche

2022Energy Storage and Saving41 citationsDOIOpen Access PDF

Abstract

One of the likely methods for enhancing heat transfer in a latent thermal energy storage system is the conception of a thermal unit. In this study, the orientation of oval tubes (horizontal, vertical, and oblique) in phase change material (PCM, C19-C20)-based shell-tube heat exchanger was analyzed with respect to the metal foam (MF) type (graphite, copper, and nickel) in comparison to the case of pure PCM. For this purpose, a two-dimensional mathematical model was developed to investigate the thermal efficiency of the PCM-metal foam based composite energy storage unit. It was concluded that the orientation of the oval tubes (oblique, horizontal, and vertical) has a negligible impact on the performance of the thermal unit during the melting/solidification processes. Based on the liquid/solid fraction, total enthalpy and the average temperature in the annular space, the performance of a heat exchanger during fusion/solidification periods is in the order: copper-MF > graphite-MF > nickel-MF > pure PCM. Whatever the adopted MF or the geometry of tubes, the melting process is expedited compared to the solidification mechanism.

Topics & Concepts

Materials sciencePhase-change materialHeat exchangerShell and tube heat exchangerGraphiteComposite materialHeat transferMetal foamTube (container)Enthalpy of fusionThermal energy storageCopperNickelLatent heatThermalMelting pointMetallurgyThermodynamicsPorosityPhysicsPhase Change Materials ResearchSolar Thermal and Photovoltaic SystemsAdsorption and Cooling Systems