期刊论文详细信息
卷:72
Protic dialkylammonium-based ionic liquids as promising solid-solid phase change materials for thermal energy storage: Synthesis and thermo-physical characterization
Article
关键词: PLASTIC CRYSTALS;    PHYSICOCHEMICAL PROPERTIES;    STRONG ACIDS;    CONDUCTIVITY;    TEMPERATURE;    TRANSITIONS;    SYMMETRY;    CATIONS;    WATER;   
DOI  :  10.1016/j.est.2023.108379
来源: SCIE
【 摘 要 】

The widespread deployment of renewable energies such as solar and wind implies the parallel development of energy storage systems to deal with their intermittency. Storing renewable energy as thermal energy is one of the alternatives under constant research. In this regard, phase change materials (PCMs) are able to store large amounts of energy at a nearly constant temperature in the form of latent heat. Nevertheless, most of these PCMs undergo solid-liquid transitions, which hamper their implementation due to leaking issues, forcing the need for containment and increasing the final cost of the TES system.Therefore, a class of PCMs possessing solid-solid transitions has emerged to avoid these problems, the so-called organic ionic plastic crystals (OIPCs). Currently, the scientific literature and the number of OIPCs available for TES are rather scarce. Herein, we present the synthesis, the structural, and the thermo-physical characterization of nine OIPCs based on the dioctylammonium cation combined with different organic and inorganic acids as the anions. Particular attention has been paid to the most characteristic thermal properties of PCMs (latent heat, transition temperature, subcooling, thermal conductivity, and energy storage density), evaluating their thermal stability and the reliability of the most promising materials over thermal cycling as well. Among the prepared OIPCs, 3 of them, [DOA][NO3], [DOA][Cl], and [DOA][FOR], exhibited promising properties with remarkable solid-solid transition enthalpies of 156.6 J/g (at 41.4 degrees C), 101.2 J/g (at 20.0 degrees C) and 58.4 J/g (at 29.7 degrees C), respectively. These 3 OIPCs showed high potential to be used and integrated as PCMs in TES systems at tem-peratures below 45 degrees C.

【 授权许可】

Free   

  文献评价指标  
  下载次数:0次 浏览次数:0次