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Hydrophilicity regulation of carbon nanotubes as phase-change materials for thermal energy storage

Authors :
Ren, Feng
Hou, Jinpeng
Shi, Chunhui
Li, Zhong
Sun, Baochang
Zhang, Kewei
Feng, Yongjun
Tian, Weiliang
Source :
Journal of Materials Research and Technology; May-June 2024, Vol. 30 Issue: 1 p1482-1489, 8p
Publication Year :
2024

Abstract

Solid-liquid phase-change materials (PCMs) offer exciting prospects for thermal energy conservation, whose performance is greatly affected by the carrier materials. Using expanded vermiculite (EV) as frameworks, carbon nanotube arrays (CNTs) were grown between EV layers by chemical vapor deposition (CVD). Then, the paraffin (PA) was loaded on the EV@CNTs composite by vacuum impregnation to prepare composite PCMs (PA/EV@CNTs), where the PA is organic carrier and the EV@CNTs acts as porous supports with high structural strength. The loading capacity of PA is further regulated by the hydrotropism of CNTs which effectively prevents the leakage of molten PA. The in-situ grown CNTs significantly improves the thermal conductivity of PCMs, improving the efficiency of energy conversion. With maximum PA loading capacity of 95 wt%, the thermal conductivity of PA/EV@CNTs-95% reaching 0.7176 W/mK, which was 1.73 and 2.96 times higher than that of pristine EV and PA. The phase change latent heat of PA/EV@CNTs-95% was measured to be 168.54 J/g, which is 1.48 times higher than that of PA/EV. After 100 cycles, the PA/EV@CNTs still maintains excellent thermal stability, and the enthalpy retention rate is 98.73%. The incorporation of high thermal conductivity amphipathicity CNTs in these PCMs makes them promising candidate for various applications such as energy-efficient buildings, thermal management in electronic devices, and self-cleaning materials.

Details

Language :
English
ISSN :
22387854
Volume :
30
Issue :
1
Database :
Supplemental Index
Journal :
Journal of Materials Research and Technology
Publication Type :
Periodical
Accession number :
ejs65876674
Full Text :
https://doi.org/10.1016/j.jmrt.2024.03.173