Unveiling the effect of molecular chain length on the thermal energy storage capacity and transition temperature of alkane-based phase change composites

材料科学 热能储存 复合材料 烷烃 热稳定性 相变材料 复合数 储能 热的 热力学 化学 有机化学 碳氢化合物 物理 功率(物理)
作者
Dimberu G. Atinafu,Beom Yeol Yun,Eilhann E. Kwon,Seong Jin Chang,Sumin Kim
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:462: 142303-142303 被引量:17
标识
DOI:10.1016/j.cej.2023.142303
摘要

Thermal energy storage systems based on phase-change materials (PCMs) have garnered significant attention, because they can overcome intermittency issues related to renewable energy sources. However, the energy storage capacity and phase-change temperature of phase-change composites largely depend on the PCM type and molecular weight, in addition to the supporting material type, and experimental studies on the thermal properties of PCMs with different molecular chain lengths are scarce. In this study, phase-change composites were prepared by the vacuum impregnation method using boron nitride (BN) as the support and n-alkanes of different chain lengths–dodecane (C12H26), and docosane (C22H46)–as the PCMs to study the effect of the alkane chain length on the thermal energy storage density and phase-change temperature. The [email protected] composite exhibited greater latent heat storage capacity (125.11 kJ/kg) than the [email protected] composite (70.84 kJ/kg), indicating the low confinement effect of the BN support on the long-chain n-alkane. In contrast, the BN functional groups and shorter-chain n-alkane had strong intermolecular interactions, which compromise the energy storage density for seepage resistance and shape stability. Both PCM composites exhibited good chemical compatibility between the two components, improved thermal durability, and insignificant leakage rate (up to 98.7% leakage resistance capability), while [email protected] showed higher shape stability. The thermal performance of the as-prepared PCM composites, including their phase-transition temperature (range: −9.54 to + 43.53 °C), illustrates their potential for various thermal management applications, including indoor temperature-control systems. This study provides fundamental guidelines for tuning the working temperature range and improving the efficiency of thermal management systems.
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