Numerical Study of Solidification of a Nano-Enhanced Phase Change Material (NEPCM) in a Thermal Storage System
S. Kashani, A. A. Ranjbar, M. M. Madani, M. Mastiani and H. Jalaly
Keywords: nanoparticle, phase change material, thermal storage, natural convection
Abstract
The effects of nanoparticle dispersion on solidification of a Cu–n-hexadecane nanofluid inside a vertical enclosure are investigated numerically for different temperatures of the left vertical wall. An enthalpy porosity technique is used to trace the solid-liquid interface. The resulting nanoparticle-enhanced phase change materials (NEPCMs) exhibit enhanced thermal conductivity in comparison to the base material. The effect of the wall temperature and nanoparticle volume fraction are studied in terms of the solid fraction and the shape of the solid-liquid phase front. It has been found that a lower wall temperature and a higher nanoparticle volume fraction result in a larger solid fraction. The increase in the heat release rate of the NEPCM shows its great potential for diverse thermal energy storage applications.
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