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Characteristics of phase-change materials containing oxide nano-additives for thermal storage

Tun-Ping Teng* and Chao-Chieh Yu

Author Affiliations

Department of Industrial Education, National Taiwan Normal University, No. 162, Sec. 1, He-ping E. Rd., Taipei City, Da-an District, 10610, Taiwan

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Nanoscale Research Letters 2012, 7:611  doi:10.1186/1556-276X-7-611

Published: 6 November 2012


In this study, the authors report the production of nanocomposite-enhanced phase-change materials (NEPCMs) using the direct-synthesis method by mixing paraffin with alumina (Al2O3), titania (TiO2), silica (SiO2), and zinc oxide (ZnO) as the experimental samples. Al2O3, TiO2, SiO2, and ZnO were dispersed into three concentrations of 1.0, 2.0, and 3.0 wt.%. Through heat conduction and differential scanning calorimeter experiments to evaluate the effects of varying concentrations of the nano-additives on the heat conduction performance and thermal storage characteristics of NEPCMs, their feasibility for use in thermal storage was determined. The experimental results demonstrate that TiO2 is more effective than the other additives in enhancing both the heat conduction and thermal storage performance of paraffin for most of the experimental parameters. Furthermore, TiO2 reduces the melting onset temperature and increases the solidification onset temperature of paraffin. This allows the phase-change heat to be applicable to a wider temperature range, and the highest decreased ratio of phase-change heat is only 0.46%, compared to that of paraffin. Therefore, this study demonstrates that TiO2, added to paraffin to form NEPCMs, has significant potential for enhancing the thermal storage characteristics of paraffin.

Alumina; Nanocomposite-enhanced phase-change materials; Paraffin; Silica; Titania; Zinc oxide