Insung Lee, Wonsun Kim, Youngjoon Moon
Oct 1, 2001
Citations
0
Influential Citations
14
Citations
Journal
Journal of Power Sources
Abstract
Abstract Three aluminum salts are investigated as a sintering aid for the in situ sintering of electrolyte matrices for molten carbonate fuel cells (MCFCs). Only aluminum acetylacetonate shows a potential. At or above 420°C, aluminum acetylacetonate changes to Al2O3 and reacts with Li2CO3 in the electrolyte to produce γ-LiAlO2. This reaction product forms necks between matrix particles. Necks grow with increasing sintering time and correspondingly, the mechanical strength of the electrolyte matrix shows an abrupt increase, starting at a sintering time of about 100 h until it levels off at about 250 h. The porosity of the matrices fabricated with aluminum acetylacetonate is in the range acceptable for use in MCFCs.