Abstract
Phase change thermal energy storage is a novel option for industrial waste heat recovery with the characteristics of high safety performance and low-cost. This work explores the potential novel composite phase change materials by encapsulating polyethylene glycol with boron nitride, carbonized loofah sponge fragments and boron nitride-carbonized loofah sponge fragments mixture using melt impregnation method. The results reveal that there is no chemical reaction between polyethylene glycol and the additives of boron nitride and carbonized loofah sponge fragments. The maximum thermal conductivity of the polyethylene glycol-based composites is 1.09 times of the pure polyethylene glycol. The thermal energy storage efficiency of polyethylene glycol/carbonized loofah sponge fragments composites with 2.5 wt% additives can be up to 80.13 %. The maximum temperature variation rates in the heating and cooling processes are attributed to polyethylene glycol/carbonized loofah sponge fragments, which are 0.096 °C/s and 0.057 °C /s correspondingly. Based on the numerical simulation considering utilization of waste heat from flue gases, the total melting time of composites with boron nitride, carbonized loofah sponge fragments, and boron nitride-carbonized loofah sponge fragments are 82.61 %, 85.25 % and 81.86 % of pure polyethylene glycol. These results imply the multiple usage of additives could not have superimposed effect on decrease of latent heat, and carbonized loofah sponge fragments is a cheap alternative to boron nitride.
Published Version
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