โ Scribed by Takao Watanabe; Yoshiyuki Izaki; Yoshihiro Mugikura; Hiroshi Morita; Masahiro Yoshikawa; Makoto Kawase; Fumihiko Yoshiba; Koichi Asano
No coin nor oath required. For personal study only.
๐ SIMILAR VOLUMES
The Influence of electrol\_tie content on the performance of molten-carbonate fuel cells IS mvestlgated Cell perfonnnnce IS good at a moderate electrolyte-loadmg ratlo, but poor for both low and high ratios In the case of d low ratlo, the mfenor beha\rlour IS due to an mcrease m JR drop through mcre
## Abstract In the framework of electricity production from molten carbonate fuel cellsโ(MCFC), this work presents the results obtained from steady state process simulation, coupled with a detailed dynamic model for the cell. The derivation of the model is briefly outlined, and detailed results of
A molten carbonate fuel cell system (MCFCS) often has high level integration of various components. A simulation tool is highly desirable for the investigation of such a complex system operating in load-following modes; thus, the theoretical modelling of a complete MCFCS has been presented in this p
At the Netherlands Energy Research Foundation, ECN, two approaches to the moltencarbonate fuel cell (MCFC) cathode lifetime problem have been investigated. In the first approach, efforts have been made to reduce the dissolution rate of the state-of-the-art NiO material by means of electrolyte additi