Influence of functionalized carbon flake on phase change characteristics of deionized (DI) water for cool thermal storage system

The current work aims to study the influence of thermal-resistance (R) and the time constant (tau) in phase change properties of carbon flake-based phase change materials (CPCM) experimentally. The CPCMs were prepared using chemically functionalized graphene flake (f-GP) in three various mass fractions (0.25%, 0.50%, and 0.75%) suspended in deionized (DI) water. The phase transition characteristics were recorded using DSC214-polyma with a heat-flow rate of 1 K/min. The remarkable variation in the peak crystallization and melting during charging and discharging processes were recorded with the combined tau -R correction method. The true peak during charging (-12.21 degrees C) and discharging (3.91 degrees C) processes is recorded through the correction of time constant for CPCM with 0.75% of f-GP. In addition, the CPCM with 0.75% f-GP has a maximum reduction in melting and freezing time of 36.01% and 27.75%, respectively. The prediction of phase change properties (peak crystallization and melting temperatures) is very important to design a cool thermal energy storage (CTES) system with maximum storage density. The selection of correct operating temperature of the CTES system reduces the energy input to the chiller plant.