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Characteristics of natural convection in n-eicosane in a square cavity with discrete heat source

Shimi Yang, Bingkun Huang, Jun Wang, Peter D. Lund

2021Case Studies in Thermal Engineering18 citationsDOIOpen Access PDF

Abstract

The natural convection of phase change material (PCM) in a two-dimensional square cavity is numerically analyzed. The cavity consists of heat surface with a constant total heated area and adiabatic wall. The Grashof and Prandtl numbers for the PCM (n-eicosane with the melting temperature, Tmelt=36°C) in basic LHS system are 9 × 10^5 and 62.7, respectively, at 350.15K. The mass, momentum and energy balance equations of the system were considered. Three basic heating surface strategies were considered (discrete heat sources): single, side-side and side-bottom heating surface. The results show that the transient Nusselt number, mean kinetic energy at the surface and energy storage rate of the fluid are effectively enhanced by proper arrangement of the discrete heat source location and heating from the bottom half of the left and right sides requires the least time for 300 kJ energy storage. The results indicate that optimally placed discrete heat sources in PCM could be a promising alternative for high-efficient thermal energy storage.

Topics & Concepts

Grashof numberNatural convectionPrandtl numberThermodynamicsThermal energy storageAdiabatic processMechanicsNusselt numberMaterials scienceKinetic energyPhase-change materialThermal energyThermalHeat transferPhysicsClassical mechanicsReynolds numberTurbulencePhase Change Materials ResearchSolar Thermal and Photovoltaic SystemsNanofluid Flow and Heat Transfer