摘要
在燃料电池的研发过程中,针对铈酸锶进行分析,找到一种合适的代替催化剂,成为盐酸盐燃料电池研发的关键.在实验室针对铈酸锶-盐酸盐燃料电池具体的性能探讨,并从反应动力学和电化学伏安特性等多个方面进行探讨,最终发现镥掺杂对于提升性能的优势,并且试验了对不同的条件下镥掺杂电极性能进行分析.并且最终得出结论,这种燃料电池性能和普通的燃料电池相比,具有稳定性高,放电速度持久,方便储存运输等多种优势.
In the research and development of fuel cells, the analysis of Sr 2CeO 3 was focused on, and a suitable substitute catalyst was found to become the key to the development of hydrochloride fuel cells. In the laboratory, the specific properties of Sr 2CeO 3-hydrochloride fuel cell were discussed, and the reaction kinetics and electrochemical voltammetric properties were discussed. Finally, the advantages of Lu element doped to improve performance were tested. The performance of the electrode after the doping of Lu element under different conditions was analyzed. It was concluded that this fuel cell performance had many advantages compared with ordinary fuel cells, such as high stability, long discharge speed, convenient storage and transportation, etc.
作者
张利
ZHANG Li(Fuyang Preschool Teachers College,Anhui Fuyang 236000,China)
出处
《广州化工》
CAS
2019年第20期59-62,共4页
GuangZhou Chemical Industry
基金
安徽省高等学校自然科学研究项目(项目编号KJ2018A0980)