Cm. Finnerty et al., Carbon formation on and deactivation of nickel-based/zirconia anodes in solid oxide fuel cells running on methane, CATAL TODAY, 46(2-3), 1998, pp. 137-145
Nickel/zirconia fuel reforming anodes in solid oxide fuel cells (SOFCs) run
ning on methane have been studied using a test cell based on a tubular SOFC
. The anodes have been characterised using temperature-programmed reduction
(TPR) which reveals that two distinct types of nickel oxide are present in
the anode prior to reduction. The steam reforming activity and surface che
mistry of two different nickel/zirconia anode formulations and a molybdenum
doped nickel/zirconia anode have been studied. All three show good activit
y towards methane steam reforming. It is found that the quantity of carbon
deposited on the anode during methane reforming is strongly affected by the
operating temperature and the methane/steam ratio. The addition of small q
uantities of molybdenum leads to a significant reduction in the amount of c
arbon deposited, whilst having little effect on the reforming activity or c
ell performance. Temperature-programmed oxidation (TPO) has revealed that t
hree types of carbon are formed on the anodes during high temperature react
ion of methane. As current is drawn from the cell, increased methane conver
sion occurs together with reduced carbon deposition, through reaction via p
artial oxidation and oxidative coupling with the flux of oxygen ions throug
h the solid electrolyte. (C) 1998 Elsevier Science B.V. All rights reserved
.