Melting and Heat Transfer Characteristics of Phase Change Material: A Comparative Study On Wire Mesh Finned Structure and Other Fin Configurations

Abstract

In the present paper, a two-dimensional transient numerical study has been performed to investigate the influence of different fin designs on the melting and heat transfer characteristics of phase change material (PCM) filled inside the square enclosure. Paraffin wax is considered PCM in the present study. Five distinct fin designs were considered: single rectangular, double rectangular, double triangular, double angled, and wire mesh. It is worth noting that all these fin designs have the same heat transfer area. Six parameters were evaluated to determine the best fin configurations: melting time, enhancement ratio (ER), time savings, energy stored, mean power, and Nusselt number. The results show that all the fin designs outperformed as compared to Model 1 (no fin configuration). Among the finned configurations, Model 2 had the poorest performance, taking 1314 seconds to complete melting, while Model 6 had the most efficient fin design, with a melting time reduced by 67.53% compared to Model 1. Model 6 also had the highest ER and mean power, i.e., 70.43% and 199.51%, respectively, and as the melting process continued, the Nusselt number decreased. In addition to the above, we optimized the element size of the wire mesh fin design using the RSM methodology. This optimized design decreased the melting period by 70.04%. Overall, this study provides a comprehensive analysis of different finned configurations for improving the melting performance of PCM in a square enclosure, with the wire-mesh fin design showing the most promising result.