光伏电解制氢的生命周期全球变暖影响的回顾与协调

IF 1.9 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Olga Kanz, K. Bittkau, K. Ding, U. Rau, A. Reinders
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引用次数: 12

摘要

本文综述了利用光伏发电系统进行氢电解的生命周期评估(LCA)研究。本文讨论了13项LCA研究的假设、优势和不足,并确定了环境影响的原因。由于对系统边界、系统规模、评估方法和功能单元的假设存在差异,直接比较不同研究得出的全球变暖潜势(GWP)具有挑战性。为了简化这一过程,根据本文描述的一致框架,对13项选定的LCA研究进行了协调。统一的GWP值在0.7 ~ 6.6 kg co2当量/kg H2之间变化,可以认为是一个很宽的范围。一项研究的原始和协调GWP结果之间的最大绝对差为1.5 kg CO2-eq/kg H2。然而,即使是这项研究中最高的全球变暖潜能值也比德国电网电解的全球变暖潜能值低四倍多。由于本次评审中包含的大多数lca缺乏透明度,因此不可能完全确定差异的来源(应用的方法,假设的生产条件)。综上所述,电解制氢过程的环境影响主要由供电的GWP引起。对于未来对制氢系统的环境影响研究,强烈建议:1)将整个系统划分为定义良好的子系统,使用压缩作为LCA的最后阶段;2)为不同子系统提供能量输入/GWP结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Review and Harmonization of the Life-Cycle Global Warming Impact of PV-Powered Hydrogen Production by Electrolysis
This work presents a review of life-cycle assessment (LCA) studies of hydrogen electrolysis using power from photovoltaic (PV) systems. The paper discusses the assumptions, strengths and weaknesses of 13 LCA studies and identifies the causes of the environmental impact. Differences in assumptions of system boundaries, system sizes, evaluation methods, and functional units make it challenging to directly compare the Global Warming Potential (GWP) resulting from different studies. To simplify this process, 13 selected LCA studies on PV-powered hydrogen production have been harmonized following a consistent framework described by this paper. The harmonized GWP values vary from 0.7 to 6.6 kg CO2-eq/kg H2 which can be considered a wide range. The maximum absolute difference between the original and harmonized GWP results of a study is 1.5 kg CO2-eq/kg H2. Yet even the highest GWP of this study is over four times lower than the GWP of grid-powered electrolysis in Germany. Due to the lack of transparency of most LCAs included in this review, full identification of the sources of discrepancies (methods applied, assumed production conditions) is not possible. Overall it can be concluded that the environmental impact of the electrolytic hydrogen production process is mainly caused by the GWP of the electricity supply. For future environmental impact studies on hydrogen production systems, it is highly recommended to 1) divide the whole system into well-defined subsystems using compression as the final stage of the LCA and 2) to provide energy inputs/GWP results for the different subsystems.
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