Analysis and Modeling of Novel Low-Temperature SOFC With a Co-Ionic Conducting Ceria-Based Composite Electrolyte
(2010) In Journal of Fuel Cell Science and Technology 7(1).- Abstract
- In recent years, ceria-based composites (CBCs) have been developed as electrolytes for low-temperature solid oxide fuel cells. These materials exhibit extremely high ionic conductivities at 400-600 degrees C. It has also been found that both oxide ion and proton can be conducted in the CBC electrolytes, which makes such co-ionic conducting fuel cell distinct from any other types of fuel cells. In this study, a model involving three charge carriers (oxide ion, proton, and electron) is developed to describe the fuel cell with CBC electrolytes. Various operating characteristics of the fuel cell with CBC electrolytes are investigated, compared to those of the fuel cell with doped ceria electrolytes. The results indicate that the CBC... (More)
- In recent years, ceria-based composites (CBCs) have been developed as electrolytes for low-temperature solid oxide fuel cells. These materials exhibit extremely high ionic conductivities at 400-600 degrees C. It has also been found that both oxide ion and proton can be conducted in the CBC electrolytes, which makes such co-ionic conducting fuel cell distinct from any other types of fuel cells. In this study, a model involving three charge carriers (oxide ion, proton, and electron) is developed to describe the fuel cell with CBC electrolytes. Various operating characteristics of the fuel cell with CBC electrolytes are investigated, compared to those of the fuel cell with doped ceria electrolytes. The results indicate that the CBC electrolyte behaves as a pure ionic conductor, the cell is more efficient, and a higher output is expected at low temperatures under the same pressure operation than that of the cell with doped ceria electrolytes. [DOI: 10.1115/1.2971173] (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/1535762
- author
- Huang, Jianbing ; Yuan, Jinliang LU ; Mao, Zongqiang and Sundén, Bengt LU
- organization
- publishing date
- 2010
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- ceria-based composite (CBC), co-ionic, analysis, low-temperature solid oxide fuel cell (LTSOFC), electrolyte
- in
- Journal of Fuel Cell Science and Technology
- volume
- 7
- issue
- 1
- publisher
- American Society Of Mechanical Engineers (ASME)
- external identifiers
-
- wos:000271667600012
- scopus:77955293367
- ISSN
- 1551-6989
- DOI
- 10.1115/1.2971173
- language
- English
- LU publication?
- yes
- id
- 75c10431-5b12-44ed-9815-9f96efbb0716 (old id 1535762)
- date added to LUP
- 2016-04-01 10:24:47
- date last changed
- 2022-01-25 22:58:09
@article{75c10431-5b12-44ed-9815-9f96efbb0716, abstract = {{In recent years, ceria-based composites (CBCs) have been developed as electrolytes for low-temperature solid oxide fuel cells. These materials exhibit extremely high ionic conductivities at 400-600 degrees C. It has also been found that both oxide ion and proton can be conducted in the CBC electrolytes, which makes such co-ionic conducting fuel cell distinct from any other types of fuel cells. In this study, a model involving three charge carriers (oxide ion, proton, and electron) is developed to describe the fuel cell with CBC electrolytes. Various operating characteristics of the fuel cell with CBC electrolytes are investigated, compared to those of the fuel cell with doped ceria electrolytes. The results indicate that the CBC electrolyte behaves as a pure ionic conductor, the cell is more efficient, and a higher output is expected at low temperatures under the same pressure operation than that of the cell with doped ceria electrolytes. [DOI: 10.1115/1.2971173]}}, author = {{Huang, Jianbing and Yuan, Jinliang and Mao, Zongqiang and Sundén, Bengt}}, issn = {{1551-6989}}, keywords = {{ceria-based composite (CBC); co-ionic; analysis; low-temperature solid oxide fuel cell (LTSOFC); electrolyte}}, language = {{eng}}, number = {{1}}, publisher = {{American Society Of Mechanical Engineers (ASME)}}, series = {{Journal of Fuel Cell Science and Technology}}, title = {{Analysis and Modeling of Novel Low-Temperature SOFC With a Co-Ionic Conducting Ceria-Based Composite Electrolyte}}, url = {{http://dx.doi.org/10.1115/1.2971173}}, doi = {{10.1115/1.2971173}}, volume = {{7}}, year = {{2010}}, }