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Numerical investigation of heat transfer and melting process in a PCM capsule: Effects of inner tube position and Stefan number

Tarek Bouzennada, Farid Mechighel, Abdelkader Filali, Kaouther Ghachem, Lioua Kolsi

2021Case Studies in Thermal Engineering39 citationsDOIOpen Access PDF

Abstract

The present paper presents a 2D-symmetric numerical study within a new-suggested configuration of a PCM's capsule aimed to investigate the heat distribution and the melting time under the effect of different factors including the position of the inner-tube and its temperature wall that is presented by Stefan number. This capsule involves an inner-tube allowing a heat transfer fluid (HTF) to flow through it and surrounded by a phase change material PCM (n-Octadecane). The governing equations are solved by using Comsol-Multiphysics commercial code. The results reveal that both heat-transfer/melting rates are improved when the inner-tube moving downward or with increasing the Ste number. whereas with the same Ste value (Ste = 0.06), the melting rate and the stored energy are better by 15.29 % and 25.77 % for the central and bottom position cases respectively than the top position. on other hand the lowest results are found in the case of Ste = 0.06 and when the HTF-tube is located in the top position, besides the case of Ste = 0.15 and when the HTF-tube is located in the bottom position provides the best results by 28 %.

Topics & Concepts

Heat transferMultiphysicsPhase-change materialTube (container)MechanicsMaterials sciencePosition (finance)ThermodynamicsPhase changePhysicsComposite materialFinite element methodFinanceEconomicsPhase Change Materials ResearchSolar Thermal and Photovoltaic SystemsAdsorption and Cooling Systems