Molten carbonate fuel cells

Materials for Fuel Cells

Volumn , Issue , 2008, Pages 248-279

  McPhail, Stephen ^a   Simonetti, Elisabetta ^a   Moreno, Angelo ^a   Bove, Roberto ^b  

^a ENEA   (Italy)

^b TNO   (Netherlands)

Author keywords

[No Author keywords available]

Indexed keywords

MOLTEN CARBONATE FUEL CELLS (MCFC);

FUEL CELLS;

EID: 79960565885     PISSN: None     EISSN: None     Source Type: Book    
DOI: 10.1533/9781845694838.248     Document Type: Chapter

References (46)

1. Agüero A., García de Blas F.J., García M.C., Muelas R., Román A. Thermal spray coatings for molten carbonate fuel cells separator plates. Surface Coatings Technol. 2001, 146:578-585.
2. Baumgartner C.E., Arendt R.H., Iacovangelo C.D., Karas B.R. Molten carbonate fuel cell cathode materials study. J. Electrochem. Soc.: Electrochem. Sci. Technol. 1984, 131(10):2217-2221.
3. Biedenkopf P., Bischoff M.M., Wochner T. Corrosion phenomena of alloys and electrode materials in molten carbonate fuel cells. Mater Corrosion 2000, 51:287-302.
4. Bodén A. The anode and the electrolyte in the MCFC. PhD Thesis 2007, Chemical Engineering, Royal Institute of Technology (KTH), Stockholm.
5. Bodén A., Lindbergh G., Sparr M. Investigation of the porous nickel anode in the molten carbonate fuel cell. Proc. 7th Int. Symp. Molten Salts Chemistry & Technology, Toulouse, 29 Aug. to 2 2005, (Sep. 2005).
6. Cassir M., Belhomme C. Technological applications of molten salts: the case of the molten carbonate fuel cell. Plasmas & Ions 1998, 2:1-13.
7. 2 matrices using an aqueous tape-casting process. J. American Ceramic Soc. 2001, 84(5):937-940.
8. Dicks A.L. Molten carbonate fuel cells. Curr. Opin. Solid State & Mater. Sci. 2004, 8:379-383.
9. Donado R.A., Marianowski L.G., Maru H.C., Selman J.R. Corrosion of the wetseal area in molten carbonate fuel cells. J. Electrochem. Soc. 1984, 131:2535-2544.
10. Doyon J.D., Gilbert T., Davies G. NiO solubility in mixed alkali/alkaline earth carbonates. J. Electrochem. Soc. 1987, 134(12):3035-3038.
11. Ekins P. Sustainability policy and environmental accounts. Presentation to the Statistics Sweden Workshop Sustainable Development -Models and Statistics 2001, Keele University, Stockholm, 26-27 Apr.
12. Farooque M. Fuel Cell Energy personal communication.
13. Frangini S. Corrosion of structural materials in molten carbonate fuel cells: an overview. High Temperature Corrosion in Molten Salts 2003, 135-154. Tech Publications Switzerland. C.A.C. Sequeira (Ed.).
14. Frangini S. Corrosion of metallic stack components in molten carbonates: critical issues and recent findings. presentation at the Int. Workshop on Degradation Issues in Fuel Cells, Crete, 19-21 2007, (Sep. 2007).
15. Freni S., Barone F., Puglisi M. The dissolution process of the NiO cathodes for molten carbonate fuel cells: state-of-the-art. Int. J. Energy Res. 1998, 22:17-31.
16. 3 in molten carbonates by means of electrochemical impedance spectroscopy. Electrochemical Technology of Molten Salts 1993, 285-302. Trans Tech Publications, Switzerland. C.A.C. Sequeira, G.S. Picard (Eds.).
17. Giorgi L., Carewska M., Patriarca M., Scaccia S., Simonetti E., Di Bartolomeo A. Development and characterization of novel cathode materials for molten carbonate fuel cell. J Power Sources 1994, 49:227-243.
18. Hoffmann J., Yuh C.-Y., Godula Jopek A. Electrolyte and material challenges. Handbook of Fuel Cells -Fundamentals, Technology and Applications, Vol. 4: Fuel Cell Technology and Applications 2003, 921-940. John Wiley & Sons Ltd, New York. W. Vielstich, H.A. Gasteiger, A. Lamm (Eds.).
19. Iacovangelo C.D. Metal plated ceramic-a novel electrode material. J. Electrochem. Soc.: Electrochem. Sci. Technol. 1986, 133(7):1359-1364.
20. Keding R., Rüssel C., Pascual M.J., Pascual L., Durán A. Corrosion mechanism of borosilicate sealing glasses in molten carbonates studied by impedance spectroscopy. J. Electroanalytical Chem. 2002, 528:184-189.
21. Kunz H.R., Bregoli L.J. The Electrochemical Society Oct. 1990, 90-16:157.
22. 2 cathodes for the molten carbonate fuel cell. J. Electrochem. Soc. 1994, 141:2959-2966.
23. Lundblad A. Development and characterization of cathode materials for fuel cells. PhD Thesis 1996, Royal Institute of Technology (KTH), Stockholm.
24. Maru H.C., Paetsch L., Pigeaud A. Review of molten carbonate fuel cell matrix technology. The Electrochemical Society 1984, 84-13:20-53. in Selman J.R. and ClaarT.D. Molten Carbonate Fuel Cell Technology.
25. Masci A. ENEA personal communication.
26. Miyazaki Y., Yanagida M., Tanase S., Tanimoto K., Kojima T., Ohtori N., Okuyama H., Kodama T., Morimoto K., Nagashima I., Nagai C., Itoh H. Fuel Cell Seminar. Tucson, 29 Nov. to 2 1992, (Dec. 1992).
27. Miyazaki Y., Yanagida M., Tanimoto K., Kojima T., Ohtori N., Asai T. Fuel Cell Seminar. San Diego, 28 Nov. - 1 1994, (Dec.).
28. Moritaa H., Komodab M., Mugikuraa Y., Izakia Y., Watanabe T., Masudac Y., Matsuyamac T. Performance analysis of molten carbonate fuel cell using a Li/Na electrolyte. J Power Sources 2002, 112:509-518.
29. Mugikura Y. Stack material and stack design. Handbook of Fuel Cells -Fundamentals, Technology and Applications, Vol. 4: Fuel Cell Technology and Applications 2003, 907-920. John Wiley & Sons Ltd, New York. W. Vielstich, H.A. Gasteiger, A. Lamm (Eds.).
30. Mugikura Y., Morita H. MCFC lifetime estimation method. presentation at the Int. Workshop on Degradation Issues in Fuel Cells, Crete, 19-21 2007, (Sep. 2007).
31. Nam S.W., Yoon S.P., Devianto H., Han J. Fabrication and characteristics of ceramic-coated anode for molten carbonate fuel cell. Proc. 7th Int. Symp. On Molten Salts Chemistry & Technology, Toulouse, 29 Aug. to 2 2005, (Sep. 2005).
32. Ota K.I., Matsuda Y., Matsuzawa K., Mitsushima S., Kamiya N. Effect of rare earth oxides for improvement of MCFC. J Power Sources 2006, 160(2):811-815.
33. Pérez F.J., Duday D., Hierro M.P., Gómez C., Agüero A., García M.C., Muelab R., Sanchez Pascual A., Martinez L. Hot corrosion study of coated separator plates of molten carbonate fuel cells by slurry aluminides. Surface Coatings Technol. 2002, 161:293-301.
34. Plomp L., Veldhuis J.B.J., Sitters E.F., Van der Molen S.B. Improvement of molten carbonate fuel cell life time. J Power Sources 1992, 39(3):369-373.
35. Selman R. Fundamental research directions in high-temperature fuel cells. presentation at the Int. Workshop on Degradation Issues in Fuel Cells, Crete, 19-21 2007, (Sep. 2007).
36. Tagawa T., Yanase A., Goto S., Yamaguchi M., Kondo M. Ceramic anode catalyst for dry methane type molten carbonate fuel cell. J Power Sources 2004, 126:605-611.
37. Tanimoto K., Miyazaki Y., Yanagida M., Tanase S., Kojima T., Okuyama H., Kodama T. Cell performance of molten-carbonate fuel cell with alkali and alkaline-earth carbonate mixtures. J Power Sources 1992, 39(3):285-297.
38. Tanimoto K., Yanagida M., Kojima T., Tamiya Y., Matsumoto H., Miyazaki Y. Long-term operation of small-sized molten carbonate fuel cells. J Power Sources 1998, 72:77-82.
39. Tomczyk P. MCFC versus other fuel cells -characteristics, technologies and prospects. J Power Sources 2006, 160:858-862.
40. Ulgiati S., Bargigli S., Raugei M. Analisi di ciclo di vita della produzione di componenti innovative per celle a combustibile a carbonati fusi (Internal report) 2005, Università di Siena and ENEA.
41. Venkataraman R., Farooque M., Ma Z. Cost reduction through thermal management improvements in large scale carbonate fuel cells. ECS Transactions 2007, 5(1):571-577.
42. 3 at 650°C'. J. Electrochem. Soc.: Electrochem. Sci Technol 1982, 129(7):1441-1445.
43. Yoshikawa K., Hirabayashi I. Preparation and superconducting properties of Bi2223 thick films by the doctor-blade process. IEEE Trans. Appl. Superconductivity 1995, 5(2):1943-1946.
44. Yuh C., Colpetzer J., Johnsen R., Farooque M., Maru H. Status of carbonate fuel cell materials. J Power Sources 1995, 56(1):1-10.
45. Yuh C., Kolpetzer J., Dickson K., Farooque M., Xu G. Carbonate fuel cell materials. J. Materials Eng. Performance 2006, 15(4):457-462.
46. Zhou L., Lin H., Yi B. Sintering behavior of porous α-lithium aluminate matrices in molten carbonate fuel cells at high temperature. J Power Sources 2007, 164(1):24-32.