Thermal evaluation of the organic phase change material RT25 inside an aluminum container with various slopes and brick walls

One of the new methods to control the internal temperature of residential buildings is to use the thermal properties of phase change materials. These materials can do this by storing the heat energy when the phase changes and reducing the heat transfer rate between the internal space of the building and the surrounding environment. Overall, the proposed work is a two-dimensional simulation of the melting and solidification process of the organic phase change material RT25, which is placed inside an aluminum container with brick walls. In this work, a thermal evaluation has been performed by examining the radiation effects caused by the reflection of the polished surfaces relative to each other. Also, chambers containing paraffin phase change materials have been thermally examined with various slopes relative to the horizon line under constant temperature and constant heat flux conditions. It has been found that the radiation effects accelerate the process of phase change so that it reduced the duration of melting and solidification processes by 43% and 31%, respectively. It was also found that by reducing the slope from 60 degrees to 45 degrees and 15 degrees, the speed of the melting process of paraffin increases by 7 %, 11 %, and 16%.