Hydrated salt thermochemical energy storage (TES) is a promising technology for high density energy storage, in principle opening the way for applications in seasonal storage. However, severe limitations are affecting large scale applications, related to their poor thermal and mechanical stability on hydration/dehydration cycling. In this paper, we report the preparation and characterization of composite materials manufactured with a wet impregnation method using strontium bromide hexahydrate (SBH) as a thermochemical storage material, combined with expanded natural graphite (G). In addition to these fully inorganic formulations, an organic polyelectrolyte (PDAC, polydiallyldimethylammonium chloride) was exploited in the structure, with the aim to stabilize the salt, while contributing to the sorption/desorption process. Different formulations were prepared with varying PDAC concentration to study its contribution to material morphology, by electron microscopy and X-ray diffraction, as well as water sorption/desorption properties, by thermogravimetry and differential calorimetry. Furthermore, the SBH/G/PDAC powder mixture was pressed to form tabs that were analyzed in a climatic chamber, which is evidence for an active role of PDAC in the improvement of water sorption, coupled with a significant enhancement of mechanical resistance upon hydration/dehydration cycling. Therefore, the addition of the polyelectrolyte is proposed as an innovative approach in the fabrication of efficient and durable TES devices.
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机译:水合盐热化学储能(TES)是一种用于高密度储能的有前途的技术,原则上为季节性储藏开辟了道路。然而,严重的局限性影响了大规模的应用,这与它们在水合/脱水循环中的热和机械稳定性差有关。在本文中,我们报道了使用六水合溴化锶(SBH)作为热化学存储材料并结合膨胀天然石墨(G)的湿法浸渍法制造的复合材料的制备和表征。除了这些完全无机的配方外,结构中还使用了有机聚电解质(PDAC,聚二烯丙基二甲基氯化铵),目的是稳定盐,同时有助于吸附/解吸过程。制备了不同PDAC浓度的不同配方,以通过电子显微镜和X射线衍射研究其对材料形态的贡献,并通过热重分析和差示热分析法研究其吸水/解吸性能。此外,将SBH / G / PDAC粉末混合物压制成片,然后在气候室内进行分析,这证明了PDAC在改善吸水率方面具有积极作用,并且在水合/脱水循环。因此,提出了在有效且耐用的TES装置的制造中添加聚电解质作为创新方法。
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