Comprehensive study of a volcanic-based hydrated salt thermochemical energy storage composites for buildings heating in China's low-latitude plateau region: Development, characterisation, and analysis

IF 8.9 2区工程技术 Q1 ENERGY & FUELS

Journal of energy storage Pub Date : 2024-11-02 DOI:10.1016/j.est.2024.114396

Zhihao Wang , Zicheng Zhang , Yihan Wang , WuYan Li , Shuli Liu

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引用次数: 0

Abstract

Thermochemical energy storage technologies can be integrated with building heating to promote the application of renewable energy. In this study, to address the challenges between the substantial heating demand and the imbalanced supply for buildings in the low-latitude plateau regions of China, a novel and cost-effective hydrated salt composite has been developed based on volcanic from TengChong. The composite was prepared by impregnating acid-treatment volcanic into a 20 % concentration of a 1:1.5 mass ratio MgCl₂-CaCl₂ solution. The BET results revealed that acid treatment increased the pore volume and the proportion of mesopores in the volcanic, which resulted in better absorption of the hydrated salts. The water adsorption capacity of the acid treatment's composites at 25 °C and RH 90 % reached 0.79 g/g. The energy storage density of the volcanic acid-treatment adsorbed hydrated salt (VAS) was 601.33 kJ/kg through DSC testing. VAS can achieve 84.15 % of the energy storage density at 68 % of the cost of MgCl₂-CaCl₂-zeolite-13×. Based on the subsequent environmental and economic analyses, the new composite was found to have significant potential for energy savings and carbon emission reduction if employed in building heating systems.

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中国低纬度高原地区建筑采暖用火山型水合盐热化学储能复合材料的综合研究：开发、表征和分析

热化学储能技术可与建筑供热相结合，促进可再生能源的应用。本研究针对中国低纬度高原地区建筑供暖需求量大、供应不平衡的难题，以腾冲火山岩为原料，开发了一种新型、经济的水合盐复合材料。该复合材料的制备方法是将经过酸处理的火山岩浸渍到浓度为 20%、质量比为 1:1.5 的氯化镁-氯化钙溶液中。BET 结果表明，酸处理增加了火山岩的孔隙体积和中孔比例，从而更好地吸收了水合盐。在 25 °C、相对湿度为 90 % 的条件下，酸处理复合材料的吸水能力达到 0.79 g/g。通过 DSC 测试，火山酸处理吸附水合盐（VAS）的储能密度为 601.33 kJ/kg。VAS 的储能密度为 84.15%，而成本仅为 MgCl2-CaCl2-zeolite-13× 的 68%。根据随后的环境和经济分析，新型复合材料在建筑供热系统中的应用具有显著的节能和减少碳排放的潜力。

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来源期刊

Journal of energy storage Energy-Renewable Energy, Sustainability and the Environment

CiteScore

11.80

自引率

24.50%

发文量

2262

审稿时长

69 days

期刊介绍： Journal of energy storage focusses on all aspects of energy storage, in particular systems integration, electric grid integration, modelling and analysis, novel energy storage technologies, sizing and management strategies, business models for operation of storage systems and energy storage developments worldwide.