ZnO-adipic acid composites as phase change material for latent heat thermal energy storage systems

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY Micro and Nano Systems Letters Pub Date : 2024-11-08 DOI:10.1186/s40486-024-00212-2

N. R. Snekha, V. Hari Suthan, K. S. Suganthi, S. Naren Raggavendra, S. Sudharsan, R. Aishwarya, K. S. Rajan

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Abstract

This work evaluates the use of zinc oxide nanorods as intensifiers of a latent heat thermal energy storage system working with adipic acid as the phase change material (PCM). By virtue of not participating directly in the solid–liquid and liquid–solid phase transition, ZnO-adipic acid composites (ZnO-adipic acid) possessed lower specific heat and latent heat. Our results have shown that the overall heat transfer coefficient during the freezing of PCM through heat transfer to a well-mixed liquid bath is amplified by 61%, when adipic acid is replaced with 2 wt.% ZnO-adipic acid. Heterogenous nucleation due to well-dispersed, ZnO nanorods caused this enhancement. The large enhancement in discharge rate of 2 wt.% ZnO-adipic acid during freezing overweighs higher degree of latent heat loss due to its repeated thermal cycling. The enhancement in overall heat transfer coefficient reported here (61%) is the highest reported so far for any latent heat thermal energy system employing adipic acid or its composites.

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作为潜热热能储存系统相变材料的氧化锌-己二酸复合材料

这项研究评估了氧化锌纳米棒作为潜热热能储存系统的增热剂与己二酸作为相变材料（PCM）的作用。由于不直接参与固-液和液-固相变，氧化锌-己二酸复合材料（氧化锌-己二酸）具有较低的比热和潜热。我们的研究结果表明，当用 2 wt.% 的 ZnO-adipic acid 取代己二酸时，通过向混合良好的液浴传热来冻结 PCM 的整体传热系数提高了 61%。分散良好的 ZnO 纳米棒所产生的异质成核是导致这种增强的原因。2 wt.% ZnO-adipic acid 在冷冻过程中放电率的大幅提高超过了其反复热循环造成的较高潜热损失。这里报告的总体传热系数的提高（61%）是迄今为止报告的采用己二酸或其复合材料的潜热热能系统中最高的。

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