题 目:高温质子交换膜燃料电池和水电解器的挑战和解决方向
Challenges and Solutions to High Temperature Polymer Electrolyte Membrane
Fuel Cells and Electrolysers
时 间:2018年11月7日13:00-14:30
地 点: 80足球直播吧F103
邀请人:隋升 副教授(燃料电池研究所)
资助方:2018年度国家外国专家局“高端外国专家项目”
演讲人简介:
Qingfeng Li是丹麦技术大学能量转换与储存系的全职教授。1990年,他在东北大学获得博士学位,2006年被授予丹麦工学大博士(Doctor of Technice) (注*工学大博士是丹麦工科领域的最高荣誉学位,通常每年授予2人),2011年当选为丹麦自然科学院院士。他在丹麦发起了高温质子交换膜燃料电池(HT-PEMFC)研究,并协调/参与了7个欧盟和25个北欧研究项目,其中包括一个丹麦-中国质子传导系统中心。目前,李教授领导着丹麦的一个研究中心,主要研究高温聚合物燃料电池的机理、材料、制造和管理的开发工作。
Biography:
Qingfeng Li is a full professor in Department of Energy Conversion and Storage, Technical University of Denmark. He received his Ph.D. at Northeastern University of China in 1990 and was in 2006 awarded the Doctor of Technices in Denmark. He initialized the high temperature PEMFC research in Denmark and has coordinated/participated 7 EU and 25 Nordic research projects including a Danish-Chinese Centre on Proton Conducting Systems. For the time being Professor Li is leading a Danish research center focusing on fundamental research on mechanisms, materials, manufacturing and management of high temperature polymer fuel cells.
摘要:
近年来,聚合物电解质膜燃料电池和电解器的高温运行已经有了大量研究工作,并取得了很大的进展。在本演讲中,首先介绍了重要的研究工作和最近的进展。公认的关键问题包括铂基催化剂、酸的保留和长期耐久性。在温和的温度范围内,在连续操作下观察到优异的聚合物耐久性。随着负载或热循环,尤其是在开路电压作用下,由于酸的损耗和催化剂的降解增加,耐久性问题更为关键。进一步地概述了今后的工作方向。
ABSTRACT:
High temperature operation of polymer electrolyte membrane fuel cells and electrolysers has in last years motivated extensive research activities with great progress. In this talk, significant efforts and recent progress are first presented. The recognized critical issues include platinum based catalysts, acid retention and long term durability. Excellent polymer durability was observed under continuous operation in the mild temperature range. With load or thermal cycling, the durability issues are more critical due to the increased acid loss and catalyst degradation particularly under open circuit voltage operation. Further efforts are outlined to the future work.