使用光伏和储氢的零能耗建筑的性能分析

IF 3.8 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Evangelos Bellos, Panagiotis Lykas, C. Tzivanidis
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引用次数: 3

摘要

可再生能源在建筑领域的开发是实现可持续发展的一个具有挑战性的方面。整合适当的存储单元是管理适当的可再生电力生产,从而避免使用电网电力的关键问题。本研究考察了一个零能耗的住宅建筑,该建筑使用光伏来满足其所有的能源需求(供暖、制冷、生活热水和电器照明需求)。该建筑使用可逆热泵和电加热器,因此不需要任何燃料。本分析的新颖之处在于在动力-氢-动力设计中利用氢作为储能技术。光伏发电产生的剩余电能供给电解槽用于制氢,电解槽在高压下储存在适当的罐中。当有电力需求,而光伏发电又不够时,氢就会被用在燃料电池中产生所需的电力。目前的工作检查了雅典400平方米的建筑面积,年总电力需求为23,656千瓦时。研究发现,使用203平方米的光伏电池和34立方米的储氢容量可以使该建筑在一年内实现自主化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance Analysis of a Zero-Energy Building Using Photovoltaics and Hydrogen Storage
The exploitation of renewable energy sources in the building sector is a challenging aspect of achieving sustainability. The incorporation of a proper storage unit is a vital issue for managing properly renewable electricity production and so to avoid the use of grid electricity. The present investigation examines a zero-energy residential building that uses photovoltaics for covering all its energy needs (heating, cooling, domestic hot water, and appliances-lighting needs). The building uses a reversible heat pump and an electrical heater, so there is not any need for fuel. The novel aspect of the present analysis lies in the utilization of hydrogen as the storage technology in a power-to-hydrogen-to-power design. The residual electricity production from the photovoltaics feeds an electrolyzer for hydrogen production which is stored in the proper tank under high pressure. When there is a need for electricity, and the photovoltaics are not enough, the hydrogen is used in a fuel cell for producing the needed electricity. The present work examines a building of 400 m2 floor area in Athens with total yearly electrical demand of 23,656 kWh. It was found that the use of 203 m2 of photovoltaics with a hydrogen storage capacity of 34 m3 can make the building autonomous for the year period.
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来源期刊
Applied System Innovation
Applied System Innovation Mathematics-Applied Mathematics
CiteScore
7.90
自引率
5.30%
发文量
102
审稿时长
11 weeks
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