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Improvement of melting performance in a longitudinal finned latent heat thermal energy storage unit

Imad Ait Laasri, Zakaria Elmaazouzi, Mustapha El Alami, A. Outzourhit, El Ghali Bennouna

2023Energy Storage10 citationsDOIOpen Access PDF

Abstract

Abstract This article presents an analysis and enhancement of the charging behavior of a double‐pipe LHTES unit with longitudinal fins for concentrated solar power applications using a finite element numerical analysis approach. The finite element approach is applied to this numerical analysis by using “COMSOL Multiphysics” software. The investigated LHTES system has an operating temperature range of 180°C‐300°C and uses “DelcoTerm Solar E 15” as the heat transfer fluid (HTF) with a eutectic inorganic mixture of sodium nitrite and sodium nitrate as the phase change material (PCM). While also taking into account the impact of the tube material and the number of fins, the primary goal of this study is to evaluate performance improvement by changing the thickness and number of fins in a linked manner without changing the storage unit capacity. The results show a maximal impact on thermal performance which decreased the melting time by 46% and the charging time by 49.6% for the configuration with a fin thickness of 1 mm, 27 longitudinal fins, an inner tube made of aluminum, and a mass flow rate of 60 kg/h.

Topics & Concepts

Phase-change materialMultiphysicsMaterials scienceThermal energy storageLatent heatHeat transferEutectic systemHeat transfer enhancementFinite element methodComposite materialThermalMechanical engineeringMechanicsThermodynamicsHeat transfer coefficientEngineeringPhysicsMicrostructurePhase Change Materials ResearchSolar Thermal and Photovoltaic SystemsAdsorption and Cooling Systems