Abstract
A novel strategy for preparing hydrate salt/expanded graphite (EG) composite phase change materials (PCMs) with large latent heat capacity and high thermal conductivity is explored, which involves modifying EG with a surfactant, compressing the modified EG into a block, and immersing the block into a melted hydrate salt. TritonX-100 is employed to modify EG for improving its hydrophilicity. The block fabricated from the modified EG exhibits larger adsorptive capacity for a MgCl2·6H2O-NH4Al(SO4)2·12H2O eutectic as compared with that of the unmodified one. The obtained eutectic/modified EG composite block exhibits a melting temperature of 63.40 °C and a melting enthalpy of as high as 157.8 J/g. The thermal conductivity of the composite block is measured to 4.789 W/m·K, about 10 times that of the eutectic. The novel eutectic/modified EG composite block shows great potentials in solar utilization systems, and this work sheds light on the development of EG-based composite PCMs containing hydrate salts.
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