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NiMo-calcium-doped ceria catalysts for inert-substrate-supported tubular solid oxide fuel cells running on isooctane.
- Source :
-
International Journal of Hydrogen Energy . Oct2020, Vol. 45 Issue 53, p29367-29378. 12p. - Publication Year :
- 2020
-
Abstract
- A calcium-doped ceria (Ce 1-x Ca x O 2−δ , 0 ≤ x ≤ 0.3) has been applied as a ceramic support in NiMo-based catalysts for an internal reforming tubular solid oxide fuel cell running on isooctane. Introducing calcium into the CeO 2 -based ceramic was found to improve conductivity of Ce 1-x Ca x O 2−δ. The Ce 0.9 Ca 0.1 O 2−δ (x = 0.10) sample exhibited an optimum conductivity of 0.045 S cm−1 at 750 °C. The transport of oxygen ions in Ce 1-x Ca x O 2−δ promoted the catalytic partial oxidation of isooctane in the NiMo–Ce 1-x Ca x O 2−δ catalyst, which increased the fuel conversion as well as H 2 and CO yields. As a result, the NiMo–Ce 0.9 Ca 0.1 O 2−δ (x = 0.10) catalyst exhibited a high isooctane conversion of 98%, and the H 2 and CO yields achieved 74% and 83%, respectively, for reforming of isooctane and air at the O/C ratio of 1.0 at 750 °C. Furthermore, the NiMo–Ce 0.9 Ca 0.1 O 2−δ catalyst has been applied as an internal reforming layer for an inert-substrate-supported tubular solid oxide fuel cell running on isooctane/air. Due to its high reforming activity, the single cell presented an initial maximum power density of 355 mW cm−2 in isooctane/air at 750 °C and displayed stable electrochemical performance during ~30 h operation. These results demonstrated the application feasibility of the NiMo–Ce 0.9 Ca 0.1 O 2−δ catalyst for direct internal reforming solid oxide fuel cells running on isooctane/air. Image 1 • NiMo–Ce 0.9 Ca 0.1 O 2−δ is found to be an effective reforming catalyst for SOFC. • Conductivity of Ce 0.9 Ca 0.1 O 2−δ support is related to the reforming activity. • Oxygen transport property promotes the catalytic partial oxidation of isooctane. • Good performance stability is obtained for SOFC running on isooctane/air. [ABSTRACT FROM AUTHOR]
- Subjects :
- *SOLID oxide fuel cells
*PARTIAL oxidation
*CATALYST supports
Subjects
Details
- Language :
- English
- ISSN :
- 03603199
- Volume :
- 45
- Issue :
- 53
- Database :
- Academic Search Index
- Journal :
- International Journal of Hydrogen Energy
- Publication Type :
- Academic Journal
- Accession number :
- 146536435
- Full Text :
- https://doi.org/10.1016/j.ijhydene.2020.07.204