Abstract
The purpose of this numerical essay is to find a system with higher speed of discharging and mounting tilted fins and loading nanoparticles as well as curved boundary have been selected as techniques for improving the performance of system. The homogenous mixture of water with CuO nanoparticles have been utilized as NEPCM and for deriving feature of working material; formulas based on empirical data were applied. The negligible impact of velocity in solidification makes the governing equations to simplify, and the final model contains two equations. Radius and concentration of nanomaterial have been considered as variables. As radius increases, the rate of process at first improves around 18% then it declines around 43.07%. Adding nanomaterial can boost the rate of freezing by 38.13%. Besides, the worst case in modeling takes 1447.8 s to finish the process while the best case needs 895.7 s to finish process.
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