Xiaohong Liu scite author profile

This paper demonstrates a novel sebacic acid/expanded graphite (SA/EG) composite phase change material for medium-temperature solar heat storage. The optimal mass percentage of SA in the SA/EG composite PCM is determined to be around 85%, at which not only SA exhibits a uniform distribution into the pores of EG but also the liquid leakage can be effectively prevented. The composite PCM with the SA mass percentage of 85% has a phase change temperature of 128 o C with the latent heat as high as ca. 187 J/g. The combination of SA and EG effectively prevents the low extent of subcooling inherent in SA. Compared to SA, the SA/EG composite PCM has the advantages of negligible subcooling as well as better thermal reliability and stability. The SA/EG composite PCM can easily be formed into various shapes by dry pressing, with little loss in thermal properties but a remarkable increase in thermal conductivity. The good thermal properties and formability make the SA/EG composite PCM show great potential in latent heat storage systems.

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Effects of anion on the electric double layer of imidazolium-based ionic liquids on graphite electrode by molecular dynamics simulation

Liu

Wang

Shu

et al. 2015

Electrochimica Acta

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Xiaohong Liu

“Green” electrochemical synthesis of Pt/graphene sheet nanocomposite film and its electrocatalytic property

Solid self-emulsifying nitrendipine pellets: Preparation and in vitro/in vivo evaluation

A novel sebacic acid/expanded graphite composite phase change material for solar thermal medium-temperature applications

Effects of anion on the electric double layer of imidazolium-based ionic liquids on graphite electrode by molecular dynamics simulation

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