Research and Integration of Hydrogen Technologies to Access Economic Sustainability (EFCF2023)

IF 2.6 4区 工程技术 Q3 ELECTROCHEMISTRY
Fuel Cells Pub Date : 2024-10-29 DOI:10.1002/fuce.2024701013
Michael H. Eikerling, Olivier Bucheli, Yannis Ieropoulos, Ludovic Jourdin, Petra Bele
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引用次数: 0

Abstract

The 27th edition of the European Fuel Cell Forum with a focus on Low Temperature Electrolyzers, Fuel Cells, and H2 Processing saw the return to the normal in-person conference modus. With the hitherto highest number of participants of the low-temperature conference branch, an excellent line-up of oral and poster presentations, and an overall positive vibe in conversations, the conference asserted the standing of the EFCF as the prime forum for scientific-technical exchanges on electrochemical hydrogen technologies in Europe.

The drive towards hydrogen as the currency of a sustainable global economy is as dynamic as ever. Yet, enabling the epochal energy transition through market-ready water electrolysis and fuel cell technologies remains an ambitious undertaking, especially when facing the immediacy of rapidly transforming climate and ecological systems. It needs unprecedented alignment of efforts from scientists, technology developers, and system integrators, driven by a high awareness of socioeconomic and environmental needs and relying on unwavering government support.

‘Integration’, the motto of the EFCF2023 conference, refers to the realization that any challenge related to the performance or stability of fuel cell or electrolyzer technologies, even if it originates deep at the materials level, will not be solved in isolation. It necessitates integration from an early stage, to be achieved scale-to-scale, component-to-component, and lab-to-lab, and combining modeling and characterization in meaningful ways. Challenged by the socioeconomic and political landscape and aligning with this motto, EFCF2023 kept its focus on fundamental understanding of electrocatalyst materials and reaction kinetics, as well as progresses and current issues for fuel cell and electrolyzer systems and their integration across the different physical levels. Furthermore, contributions related to advanced modelling and diagnostics, as well as engineering, system integration, and demonstration of real-world devices.

In total 172 papers were presented at EFCF2023, of which 108 have been presented orally. Several poster presentations also prepared as an MP4 record presentation accessible to conference participants through EFCF's website also after the conference, similar to the recorded oral presentations. Finally, a limited number of scientific papers have been selected to become part of this Special Issue.

Alongside EFCF2023, the 5th International Microbial/Enzymatic Electrochemistry Platform Symposium (MEEP2023) was held. This event sparked lively discussions on the use of microbial cells and enzymes as ‘catalysts’ in various electrochemical systems, ranging from electricity generation in microbial fuel cells to the conversion of carbon dioxide into chemicals and fuels in microbial electrosynthesis systems. To bring these technologies to industrial scale, it is essential to explore both fundamental and applied engineering aspects—a focus reflected in the MEEP2023 program. The symposium covered topics such as microbial biofilm functions, electron transfer mechanisms, novel materials and biohybrids, multiscale mass transport, and scale-up challenges. MEEP2023 featured a total of 59 contributions, with 37 delivered as oral presentations.

Many thanks are due to the Editor-in-Chief Prof. Eileen Yu and Senior Editor Dr. Petra Bele of the journal Fuel CellsFrom Fundamentals to Applied Systems for their great support on publishing this combined Special issue in this esteemed journal.

Abstract Image

研究和整合氢能技术以实现经济可持续性(EFCF2023)
以低温电解槽、燃料电池和 H2 处理为主题的第 27 届欧洲燃料电池论坛恢复了正常的现场会议模式。低温会议分会的参会人数是迄今为止最多的,口头报告和海报展示阵容强大,整体对话气氛积极,这些都证明了欧洲燃料电池论坛作为欧洲电化学制氢技术的主要科技交流论坛的地位。然而,通过适销对路的水电解和燃料电池技术实现划时代的能源转型仍然是一项雄心勃勃的事业,尤其是在面临气候和生态系统急剧变化的当下。EFCF2023会议的口号是 "整合",指的是认识到任何与燃料电池或电解槽技术的性能或稳定性有关的挑战,即使是深层次的材料问题,也不可能孤立地得到解决。它需要从早期阶段就进行整合,实现规模与规模之间、组件与组件之间、实验室与实验室之间的整合,并以有意义的方式将建模和表征结合起来。在社会经济和政治环境的挑战下,EFCF2023 秉承这一宗旨,始终关注对电催化剂材料和反应动力学的基本理解,以及燃料电池和电解槽系统的进展和当前问题及其在不同物理层面上的整合。此外,与先进建模和诊断以及工程设计、系统集成和实际设备演示相关的论文也在 EFCF2023 上发表。一些海报演讲还制作了 MP4 记录演示文稿,与会者可在会后通过 EFCF 网站访问,与口头演讲录音类似。最后,还挑选了少量科学论文作为本特刊的一部分。与 EFCF2023 同时举行的还有第五届国际微生物/酶电化学平台研讨会(MEEP2023)。此次活动就微生物细胞和酶作为 "催化剂 "在各种电化学系统中的应用展开了热烈讨论,讨论范围从微生物燃料电池发电到微生物电合成系统将二氧化碳转化为化学品和燃料。要使这些技术达到工业化规模,必须从基础和应用工程两方面进行探索,这也是 MEEP2023 计划的重点。研讨会涵盖的主题包括微生物生物膜功能、电子传递机制、新型材料和生物混合物、多尺度质量传输以及扩大规模所面临的挑战。衷心感谢《燃料电池--从基础到应用系统》杂志主编 Eileen Yu 教授和高级编辑 Petra Bele 博士的大力支持,使这一合并特刊得以在这一备受推崇的杂志上发表。
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来源期刊
Fuel Cells
Fuel Cells 工程技术-电化学
CiteScore
5.80
自引率
3.60%
发文量
31
审稿时长
3.7 months
期刊介绍: This journal is only available online from 2011 onwards. Fuel Cells — From Fundamentals to Systems publishes on all aspects of fuel cells, ranging from their molecular basis to their applications in systems such as power plants, road vehicles and power sources in portables. Fuel Cells is a platform for scientific exchange in a diverse interdisciplinary field. All related work in -chemistry- materials science- physics- chemical engineering- electrical engineering- mechanical engineering- is included. Fuel Cells—From Fundamentals to Systems has an International Editorial Board and Editorial Advisory Board, with each Editor being a renowned expert representing a key discipline in the field from either a distinguished academic institution or one of the globally leading companies. Fuel Cells—From Fundamentals to Systems is designed to meet the needs of scientists and engineers who are actively working in the field. Until now, information on materials, stack technology and system approaches has been dispersed over a number of traditional scientific journals dedicated to classical disciplines such as electrochemistry, materials science or power technology. Fuel Cells—From Fundamentals to Systems concentrates on the publication of peer-reviewed original research papers and reviews.
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