Preparation of stearic acid/modified expanded vermiculite composite phase change material with simultaneously enhanced thermal conductivity and latent heat

•Expanded vermiculite loaded with titanium dioxide and treated with nitric acid (aEVT) was used for absorbing stearic acid (SA) by vacuum impregnation method.•The latent heats of SA/aEVT were 146.8 J/g at the melting temperature of 65.9 °C and 141.7 J/g at the freezing temperature of 63.4 °C.•The thermal conductivity of SA/aEVT was 0.58 W/mK.•The latent heat and thermal conductivity of SA/aEVT were both higher than those of SA/EV and SA/aEV.•The SA/aEVT composite PCM has good thermal and chemical stabilities.

A novel stearic acid/modified expanded vermiculite composite phase change material (PCM) was prepared in this study. Titanium dioxide-loaded expanded vermiculite was treated with nitric acid (aEVT) and then used as stearic acid (SA) supporting matrix. The thermal conductivity and latent heats of the SA/aEVT composite PCM were enhanced simultaneously compared with those of SA/expanded vermiculite (EV) and SA/expanded vermiculite with acid treatment (aEV) composite PCMs. The thermal conductivity of SA/aEVT was 0.58 W/mK, which was 11.4% and 20.3% higher than those of SA/EV and SA/aEV, respectively. The latent heats of SA/aEVT were 146.8 J/g at the melting temperature of 65.9 °C and 141.7 J/g at the freezing temperature of 63.4 °C, which were also higher than those of SA/EV and SA/aEV. The results of the thermal cycling test and Fourier transform infrared spectroscopy (FT-IR) indicated that the SA/aEVT composite PCM was thermally stable and chemically inert. Thus, the prepared SA/aEVT is a promising composite PCM for latent heat storage systems.

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