An anode-supported micro-tubular solid oxide fuel cell with redox stable composite cathode

International Journal of Hydrogen Energy

Volumn 35, Issue 16, 2010, Pages 8654-8662

  Zhang, Xiaozhen ^a,b   Lin, Bin ^a   Ling, Yihan ^a   Dong, Yingchao ^a,b   Meng, Guangyao ^a   Liu, Xingqin ^a  

^a UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA   (China)

^b JINGDEZHEN CERAMIC INSTITUTE   (China)

Author keywords

Electrochemical performance; Hollow fiber; Phase inversion; Redox stable cathode; Solid oxide fuel cell

Indexed keywords

AMBIENT AIR; ANODE-SUPPORTED; CATHODE MATERIALS; COMPOSITE CATHODE; COMPOSITE OXIDE; DIP-COATING PROCESS; ELECTRICAL CONDUCTIVITY; ELECTROCHEMICAL PERFORMANCE; GASTIGHTNESS; HIGH TEMPERATURE; HOLLOW FIBER; INTERFACIAL POLARIZATION RESISTANCE; MICRO-TUBULAR; MICRO-TUBULAR SOLID OXIDE FUEL CELLS; PEAK POWER DENSITIES; PHASE INVERSION; PHASE-INVERSION METHOD; POTENTIAL APPLICATIONS; REDOX STABLE CATHODE; THIN ELECTROLYTES; THIN YSZ ELECTROLYTE;

BENDING STRENGTH; CATHODES; CERIUM; CERIUM COMPOUNDS; CHROMIUM; ELECTRIC CONDUCTIVITY; ELECTROLYTES; ELECTROPHORETIC COATINGS; FIBERS; MANGANESE; MANGANESE COMPOUNDS; MICROSTRUCTURE; POLARIZATION;

SOLID OXIDE FUEL CELLS (SOFC);

EID: 77955563430     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2010.05.122     Document Type: Article

References (40)

1. T. Suzuki, Z. Hasan, Y. Funahashi, T. Yamaguchi, Y. Fujishiro, and M. Awano Impact of anode microstructure on solid oxide fuel cells Science 325 2009 852 854
2. N. Akhtara, S.P. Decent, D. Loghin, and K. Kendall Micro-tubular solid oxide fuel cells: an experimental study J Power Sources 193 2009 39 48
3. Y. Funahashi, T. Shimamori, T. Suzuki, Y. Fujishiro, and M. Awano Fabrication and characterization of components for cube shaped micro tubular SOFC bundle J Power Sources 163 2007 731 736
4. J. Pusz, A. Smirnova, A. Mohammadi, and N.M. Sammes Fracture strength of micro-tubular solid oxide fuel cell anode in redox cycling experiments J Power Sources 163 2007 900 906
5. W. Bujalski, C.M. Dikwal, and K. Kendall Cycling of three solid oxide fuel cell types J Power Sources 171 2007 96 100
6. T. Suzuki, Y. Funahashi, T. Yamaguchi, Y. Fujishiro, and M. Awano Fabrication and characterization of micro tubular SOFCs for advanced ceramic reactors J Alloys Compd 451 2008 632 635
7. P. Sarkar, L. Yamarte, H. Rho, and L. Johanson Anode-supported tubular micro-solid oxide fuel cell Int J Appl Ceram Technol 4 2007 103 108
8. G.J. Saunders, and K. Kendall Reactions of hydrocarbons in small tubular SOFCs J Power Sources 106 2002 258 263
9. C.C. Wei, and K. Li Yttria-stabilized zirconia (YSZ)-based hollow fiber solid oxide fuel cells Ind Eng Chem Res 47 2008 1506 1512
10. Y. Liu, S.I. Hashimoto, H. Nishino, K. Takei, M. Mori, and T.Y. Suzuki Fabrication and characterization of micro-tubular cathode-supported SOFC for intermediate temperature operation J Power Sources 174 2007 95 102 (Pubitemid 350051654)
11. T. Suzuki, T. Yamaguchi, Y. Fujishiro, and M. Awano Fabrication and characterization of micro tubular SOFCs for operation in the intermediate temperature J Power Sources 160 2006 73 77
12. C. Yang, W. Li, S. Zhang, L. Bi, R. Peng, and C. Chen Fabrication and characterization of an anode-supported hollow fiber SOFC J Power Sources 187 2009 90 92
13. N. Droushiotis, U. Doraswami, K. Kanawka, G.H. Kelsall, and K. Li Characterization of NiO-yttria stabilised zirconia (YSZ) hollow fibres for use as SOFC anodes Solid State Ionics 180 2009 1091 1099
14. N. Yang, X. Tan, and Z. Ma A phase inversion/sintering process to fabricate nickel/yttria-stabilized zirconia hollow fibers as the anode support for micro-tubular solid oxide fuel cells J Power Sources 183 2008 14 19
15. Z. Wang, K. Sun, S. Shen, N. Zhang, J. Qiao, and P. Xu Preparation of YSZ thin films for intermediate temperature solid oxide fuel cells by dip-coating method J Membr Sci 320 2008 500 504
16. J. Seydel, M. Becker, E. Ivers-Tiffée, and H. Hahn Granular nanocrystalline zirconia electrolyte layers deposited on porous SOFC cathode substrates Mater Sci Eng B 164 2009 60 64
17. M. Han, X. Tang, H. Yin, and S. Peng Fabrication, microstructure and properties of a YSZ electrolyte for SOFCs J Power Sources 165 2007 757 763
18. J.H. Joo, and G.M. Choi Thick-film electrolyte (thickness <20 μm)-supported solid oxide fuel cells J Power Sources 180 2008 195 198
19. J. Ding, and J. Liu An anode-supported solid oxide fuel cell with spray-coated yttria-stabilized zirconia (YSZ) electrolyte film Solid State Ionics 179 2008 1246 1249
20. S.C. Singhal, and K. Kendall High temperature solid oxide fuel cells: fundamentals, design and applications 2003 Elsevier Limited New York
21. D.M. Bastidas, S. Tao, and J.T.S. Irvine A symmetrical solid oxide fuel cell demonstrating redox stable perovskite electrodes J Mater Chem 16 2006 1603 1605
22. T. Hibino, A. Hashimoto, T. Inoue, J.I. Tokuno, S.I. Yoshida, and M. Sano A low-operating-temperature solid oxide fuel cell in hydrocarbon-air mixtures Science 288 2000 2031 2034
23. Z.P. Shao, S.M. Haile, J. Ahn, P.D. Ronney, Z.L. Zhan, and S. Barnett A thermally self-sustained micro solid-oxide fuel-cell stack with high power density Nature 435 2005 795 796
24. 3-δ as both anode and cathode material with improved microstructure in solid oxide fuel cells Electrochimica Acta 52 2006 278 284
25. S. Tao, and J.T.S. Irvine A redox-stable efficient anode for solid-oxide fuel cells Nat Mater 2 2003 320 323
26. S. Tao, J.T.S. Irvine, and J.A. Kilner An efficient solid oxide fuel cell based-upon single-phase perovskites Adv Mater 17 2005 1734 1737
27. 3/YSZ composite anodes for methane oxidation reaction in solid oxide fuel cells Solid State Ionics 177 2006 149 157
28. 3 under anodic conditions J Solid State Chem 178 2005 1844 1850
29. 3-δ J Phys Chem B 110 2006 21771 21776
30. 3-δ (A = Ca, Sr, Ba) electrodes for solid oxide fuel cells Solid State Ionics 180 2009 1076 1082
31. 3) hollow fibre membranes by a combined phase-inversion and sintering method Ceram Int 29 2003 875 881
32. X. Tan, Y. Liu, and K. Li Mixed conducting ceramic hollow-fiber membranes for air separation AlChE J 51 2005 1991 2000
33. M. Liu, D. Dong, R. Peng, J. Gao, J. Diwu, and X. Liu YSZ-based SOFC with modified electrode/electrolyte interfaces for operating at temperature lower than 650 °C J Power Sources 180 2008 215 220
34. Doraswami U, Shearing P, Droushiotis N, Li K, Brandon NP, Kelsall GH. Modelling the effects of measured anode triple-phase boundary densities on the performance of micro-tubular hollow fiber SOFCs. Solid State Ionics, in press, doi:10.1016/j.ssi.2009.10.013.
35. D. Cui, Y. Liu, Y. Dong, and M. Cheng Comparison of different current collecting modes of anode supported micro-tubular SOFC through mathematical modeling J Power Sources 174 2007 246 254
36. Q.M. Nguyen, and T. Takahashi Science and technology of ceramic fuel cells 1995 Elsevier Science Amsterdam
37. S.D. Kim, S.H. Hyun, J. Moon, J.H. Kim, and R.H. Song Fabrication and characterization of anode-supported electrolyte thin films for intermediate temperature solid oxide fuel cells J Power Sources 139 2005 67 72
38. 3-δ, a redox-stable, efficient perovskite anode for SOFCs J Electrochem Soc 151 2004 A252 A259
39. J.C. Ruiz-Morales, J. Canales-Vázquez, B. Ballesteros- Pérez, J. Peña-Martínez, D. Marrero- López, and J.T.S. Irvine LSCM-(YSZ-CGO) composites as improved symmetrical electrodes for solid oxide fuel cells J Euro Ceram Soc 27 2007 4223 4227
40. T. Suzuki, T. Yamaguchi, Y. Fujishiro, and M. Awano Current collecting efficiency of micro tubular SOFCs J Power Sources 163 2007 737 742