Comprehensive evaluation of the photothermal conversion thermochemical energy storage composite materials: Material characterization, kinetics analysis and building heating application

IF 6.6 2区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Energy and Buildings Pub Date : 2025-04-05 DOI:10.1016/j.enbuild.2025.115699

Yihan Wang , Ying Li , Zhiqi Xu , Shuli Liu , Yongliang Shen , Wenjie Ji , Tingsen Chen , Yongliang Li , Beatrice Pulvirenti

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引用次数: 0

Abstract

To further promote the application of thermochemical energy storage below 120 °C, the thermochemical composite adsorbents prepared by combining graphite felt with MgCl₂/MgSO₄, SrBr₂ and LiOH, which are named F-M, F-S and F-L, respectively. Their performance is evaluated at the material characterization, kinetics analysis, photothermal conversion and practical application perspectives. The thermochemical energy storage density of the composites below 120 °C is relatively high, with 30 %wtSL F-M reaching 789.71 kJ/kg. Graphite felt effectively disperses hydrated salts and prevents agglomeration, and the activation energies of dehydration and hydration reactions are reduced. The activation energies of the dehydration and hydration reactions of 5 %wtSL F-L are 39.58 kJ/mol and 35.09 kJ/mol. The composites have high solar absorption capabilities and can directly absorb solar energy and store it as chemical energy. 5 %wtSL F-L has the highest energy storage power and solar-chemical energy conversion efficiency, reaching 1.65 W and 64.08 %. 12 %wtSL F-L and 30 %wtSL F-M reach high energy release temperature, which are suitable for public baths or building radiator heating. F-S achieves stable temperature output at 50.0°C for a long time and is suitable for building floor heating scenarios. Under the application temperature, the 60 %wtSL F-S reconverts 71.89 % of the stored chemical energy into usable thermal energy.

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光热转换热化学储能复合材料的综合评价：材料表征、动力学分析及建筑采暖应用

为了进一步促进120℃以下热化学储能的应用，将石墨毡与MgCl2/MgSO4、SrBr2和LiOH结合制备了热化学复合吸附剂，分别命名为F-M、F-S和F-L。从材料表征、动力学分析、光热转化和实际应用等方面对其性能进行了评价。复合材料在120℃以下的热化学储能密度较高，30% wtSL F-M达到789.71 kJ/kg。石墨毡能有效分散水合盐，防止团聚，降低脱水和水合反应的活化能。5% wtSL F-L的脱水和水合反应活化能分别为39.58 kJ/mol和35.09 kJ/mol。该复合材料具有较高的太阳能吸收能力，可以直接吸收太阳能并将其作为化学能储存。5% wtSL F-L具有最高的储能功率和光化学能转换效率，分别达到1.65 W和64.08%。12% wtSL F-L和30% wtSL F-M达到高能量释放温度，适用于公共浴场或建筑散热器采暖。F-S长时间稳定输出温度在50.0℃，适用于建筑地暖场景。在应用温度下，60% wtSL的F-S将71.89%的储存化学能转化为可用热能。

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来源期刊

Energy and Buildings 工程技术-工程：土木

CiteScore

12.70

自引率

11.90%

发文量

863

审稿时长

38 days

期刊介绍： An international journal devoted to investigations of energy use and efficiency in buildings Energy and Buildings is an international journal publishing articles with explicit links to energy use in buildings. The aim is to present new research results, and new proven practice aimed at reducing the energy needs of a building and improving indoor environment quality.