Phase change materials (PCMs) based on latent heat energy storage techniques over a nearly isothermal temperature :range have been regarded as a promising strategy to meet the highly efficient thermal management system for electric vehicles (EVs). Ordinarily, paraffin:wax is applied as a most widespread PCM especially in medium- and low-temperature storage, owing to a large latent heat that is nontoxic and noncorrosive. However, paraffin wax is limited because of its poor thermal conductivity, resulting in a significant decrease of the heat transfer rates. Here, we present a novel paraffin wax nanocomposite filling with carbon -,Coated aluminum nanoparticles (Al-C/PW), in which carbon-coated aluminum nanoparticles (Al-C) can form a network, resulting in a remarkable increase of the thermal conductivity. The results show that the thermal conductivity is 0.189W/(m.K) with 4 wt Al-C under 25 degrees C, which is about 206.5 compared to the pure paraffin, simultaneously keeping a good thermal durability. Our work paves the way for developing a paraffin wax nanocomposite:filled with Al-C for enhanced PCM.
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