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Parametric study of thermal energy storage in shell and tube heat exchanger double tube heat exchanger with I-shaped fins

M. Harchaoui, A. Bendaraa, M. M. Charafi

2024Journal of Energy Storage17 citationsDOIOpen Access PDF

Abstract

This paper presents the development of a novel heat exchanger design incorporating optimized “I”-shaped copper (Cu) fins to enhance thermal performance and energy efficiency. Using a numerical model based on the finite element method , the study investigated the impact of fin geometry optimization on energy storage and melting time within a shell-and-tube heat exchanger utilizing latent heat. The proposed design features a cellular arrangement of fins immersed in a phase change material (PCM-RT35). Key findings include a significant improvement in energy storage capacity and melting efficiency. Compared to existing designs, the I-shaped exchanger surpassed others in melting time by 13.94 %, 43.39 %, and 78.92 % compared to the honeycomb, longitudinal fin , and circular fin exchangers. Its superior power stems from high energy storage and a short melting time, with mean power improvements of 11.34 %, 37.9 %, and 51.78 %, respectively, over the other exchangers. These results demonstrate the potential of the optimized fin design to improve energy efficiency and thermal performance in latent heat storage systems.

Topics & Concepts

Shell and tube heat exchangerHeat exchangerTube (container)Concentric tube heat exchangerPlate fin heat exchangerParametric statisticsMaterials scienceBaffleShell (structure)MechanicsThermodynamicsPlate heat exchangerMechanical engineeringEngineeringPhysicsComposite materialMathematicsStatisticsHeat Transfer and OptimizationPhase Change Materials ResearchSolar Thermal and Photovoltaic Systems
Parametric study of thermal energy storage in shell and tube heat exchanger double tube heat exchanger with I-shaped fins | Litcius