This study presents a numerical analysis of the melting process of phase change materials (PCMs) within a latent heat thermal\nenergy storage (LHTES) system employing zigzag plate. The numerical model used NaCl-MgCl2 mixture as PCMs and hot air as\nheat transfer fluid (HTF). An experimental system was built to validate the model, and the experimental data agrees reasonably\nwell with the simulation results. The simulation results revealed the effects of the Reynolds and Stefan numbers and the surface\ntopography of the zigzag plate on the charging process. Besides, the effect of the relationship between Reynolds and Stefan numbers\non the charging process under a new boundary condition employing a fixed input power was studied. It is found that by modifying\nthe shape of the zigzag plate surface it is feasible to enhance the heat transfer of the LHTES unit remarkably. The melting rate of\nPCMs increases with the value of Ste or Re numbers with only one of them changing; however, the melting rate of PCMs decreases\nwith the increasing Ste (or decreasing Re) in a fixed input power condition.
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