标准化
协议(科学)
电解
温室气体
产品(数学)
生产(经济)
系统工程
工艺工程
燃料电池
考试(生物学)
领域(数学)
可持续发展
电压
制造工程
计算机科学
材料科学
新产品开发
过程管理
风险分析(工程)
环境经济学
可持续生产
循环试验
可比性
可持续能源
合格评定
可靠性工程
一致性测试
作者
Dorottya Hursán,Kevinjeorjios Pellumbi,Balázs Endrődi,Angelika A. Samu,Emilia Wessel,Henri Pelzer,Viktor Józó,Jasper Biemolt,Ulf‐Peter Apfel,Thomas Burdyny,Brian Seger,Peter Strasser,Csaba Janáky
标识
DOI:10.1002/aenm.202506808
摘要
ABSTRACT CO 2 electrolysis is an emerging technology for the sustainable production of fuels and chemicals. Its transition from laboratory‐scale research to real‐world application is strongly driven by both regulatory and strategic means, aimed at achieving net‐zero greenhouse gas emissions. To meet this goal, accelerated progress in CO 2 electrolysis research and technological development is essential to ensure economic viability. This requires clear performance targets, reference materials, and standardized testing protocols that serve as a basis for reliable performance comparison within the CO 2 electrolysis community. To address this need, a Round Robin experiment was conducted involving well‐established R&D entities in the field of CO 2 electrolysis. The objective was to identify and mitigate the main sources of experimental variability, thereby enhancing reproducibility. We found that especially the modes of temperature measurements and cell/anolyte heating alongside pressure fluctuations and overpressures during product analysis are considerable differences among labs, while adjustments to the initial electrochemical protocol helped in minimizing voltage spikes in changing operation. As a result of multiple measurement campaigns and in‐depth discussions among participants, a recommendation for a standardized testing protocol and test setup requirements for CO 2 electrolyzers are provided.
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