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W3201601168 abstract "In this paper, the solidification process of a phase change material (PCM) in a maple leaf-shaped Latent Heat Energy Storage (LHES) system applying fins in the form of leaf veins and nanoparticles as direct and indirect heat transfer enhancement methods is investigated numerically. These systems are used to balance energy supply and need. In this research, both methods are used to solve the problem of pure PCM, ie low thermal conductivity. The innovative fins used in this work are geometrically optimized using the Response Surface Method (RSM). The goal of optimization is accelerating the solidification process and reducing the full solidification time (FST). In the second method, nano-enhanced phase change material (NEPCM) is made by adding MWCNT nanoparticles to PCM (water). Standard Galerkin Finite Element Method (SGFEM), along with adaptive grid refinement, has been used to simulate the solidification process. The two methods were examined separately and simultaneously (Hybrid method), and the results were compared. Although the hybrid use of the two aforementioned methods is excellent with a 56.9% reduction in FST if the two methods are used separately, the method of using optimized fins in the form of leaf veins with a 42.6% reduction in FST is much more effective than making NEPCM with a 25.5% reduction in FST." @default.
W3201601168 created "2021-09-27" @default.
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W3201601168 date "2021-11-01" @default.
W3201601168 modified "2023-09-26" @default.
W3201601168 title "Performance enhancement of a maple leaf-shaped latent heat energy storage unit by adding nanoparticles and leaf vein fins" @default.
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W3201601168 doi "https://doi.org/10.1016/j.est.2021.103159" @default.
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