Abstract

The collecting energy from solar radiation using phase change materials is significant in the field of thermal storage. In the current work, a novel MWCNT-modified hydrate salt/poly (acrylate sodium) copolymer hydrogel (MWCNT-GS/PAAS) form-stable composite PCM was well prepared using mechanical mixing method. The form-stable ability, microstructure, heat storage capacity, thermal stability and thermal-cycling reliability of the prepared MWCNT-GS/PAAS were investigated. The leakage experiment exhibited that the MWCNT-GS/PAAS containing 7 wt% PAAS can maintain original gel-structure without leakage in melting state of hydrate salt. Moreover, scanning electron microscopy was used to demonstrate that the hydrate salt PCM was coated with densified hydrogel film. ATR-FTIR and Raman spectra results indicated that the hydrate salt PCM was encapsulated successfully within the network gel-structure. Differential scanning calorimetry (DSC) suggested that the MWCNT-GS/PAAS composite possessed good thermal storage capacity, of which the latent heat reached up to 187.2 J/g. Thermal gravimetric analysis (TGA) indicated that the retention ratio of the crystal water in MWCNT-GS/PAAS is as high as 64.8 wt% at the temperature where the Glauber's salt completely dehydrated. The heat transfer performance suggested that the thermal conductivity and thermal diffusivity of the MWCNT-GS/PAAS composite increased by 141.7% and 167.1% compared with those of the pure GS. Furthermore, being subjected to 500 thermal cycles, the prepared composite maintained favorable thermal and chemical stability. The obtained results indicated MWCNT-GS/PAAS composite was an outstanding candidate used for solar energy storage systems.

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