住宅能源系统中氢基长期电能储存的评估

IF 5.4 Q2 ENERGY & FUELS Smart Energy Pub Date : 2022-11-01 DOI:10.1016/j.segy.2022.100088
Pietro Lubello, Mattia Pasqui, Alessandro Mati, Carlo Carcasci
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引用次数: 8

摘要

在氢在能源系统脱碳中的众多设想应用中,季节性储能通常被认为是最有可能的选择之一。尽管长期能源储存通常是在电网规模上考虑的,但鉴于分布式能源系统的日益普及和氢相关组件的预期成本降低,一些公司开始提供住宅系统,包括光伏模块和电池,这些系统依赖氢来进行季节性的电能储存。这种储氢系统一般由水电解槽、储氢容器和燃料电池组成。这项工作的目的是调查这些系统及其在意大利不同地理条件下的可能应用。考虑并网和离网系统,并将其与无氢系统在自耗比、组件大小和经济投资方面进行比较。每一种不同的选择都从技术经济角度通过MESS(多能源系统模拟器)进行了评估,这是一种用于分析当地能源系统的分析编程工具。结果确定了系统组件的最佳尺寸,并显示了这些系统如何在一般情况下对单个住宅没有经济竞争力,尽管它们在某些情况下可以确保能源独立。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Assessment of hydrogen-based long term electrical energy storage in residential energy systems

Among the numerous envisioned applications for hydrogen in the decarbonisation of the energy system, seasonal energy storage is usually regarded as one of the most likely options. Although long-term energy storage is usually considered at grid-scale level, given the increasing diffusion of distributed energy systems and the expected cost reduction in hydrogen related components, some companies are starting to offer residential systems, with PV modules and batteries, that rely on hydrogen for seasonal storage of electrical energy. Such hydrogen storage systems are generally composed by water electrolysers, hydrogen storage vessels and fuel cells.

The aim of this work is to investigate such systems and their possible applications for different geographical conditions in Italy. On-grid and off-grid systems are considered and compared to systems without hydrogen, in terms of self-consumption ratio, size of components and economic investment. Each different option has been assessed from a techno-economic point of view via MESS (Multi Energy Systems Simulator), an analytical programming tool for the analysis of local energy systems.

Results have identified the optimal sizing of the system's components and have shown how such systems are not, in general, economically competitive for a single dwelling, although they can in some cases ensure energy independence.

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来源期刊
Smart Energy
Smart Energy Engineering-Mechanical Engineering
CiteScore
9.20
自引率
0.00%
发文量
29
审稿时长
73 days
期刊最新文献
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