Supplementary files for: Characterization and effects of thermal cycling on the properties of paraffin/expanded graphite composites
datasetposted on 24.09.2019, 08:31 by Qingqing Wang, Dan Zhou, Yuming Chen, Philip Eames, Zhigen Wu
Paraffin has been one of the most potential phase change materials (PCMs) in low-temperature latent heat storage. However, the low thermal conductivity of paraffin restricts its thermal performance and limits its large-scale applications. Adding a suitable proportion of expanded graphite (EG) into the paraffin can enhance the heat transfer rate, thus improve the thermal efficiency of the whole heat storage system. In this paper, five paraffin/EG composites with 2 wt%, 5 wt%, 10 wt%, 15 wt% and 20 wt% of EG were prepared to study their long-term characteristics. Effects of thermal cycling (up to 100 thermal cycles) on the thermophysical properties were studied, such as, phase transition temperature, latent heat, chemical compatibility, thermal stability and thermal conductivity. The paraffin/EG composite has the potential for converting intermittent electricity directly into heat, therefore, the effect of thermal cycling on electrical conductivity was also studied. The results showed that both phase transition temperature and latent heat decreased slightly after 100 thermal cycles, within 1% and 3% respectively. Thermal cycling changed the distribution and interaction between the paraffin and EG resulting in a lower temperature thermal decomposition process. Long-term thermal cycling also had a more negative effect on the increase rate in thermal and electrical conductivity achieved for higher EG content.
Interdisciplinary Centre for for Storage, Transformation and Upgrading of Thermal Energy (i-STUTE)
Engineering and Physical Sciences Research CouncilFind out more...
- Mechanical, Electrical and Manufacturing Engineering
- Centre for Renewable Energy Systems Technology (CREST)