References

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2. S. Yoshioka and H. Urushibata, "Simulation of MCFC's Life caused by Cathode Dissolution and Shorting", Extended Abstracts of the 186th Electrochem. Soc. Fall meeting, Vol. 94-2, Maiami Beach. Florida, October 9-14, pp.938-9, 1994

3. P. A. Finn, "The Effects of Different Environments on the Thermal Stability of Powdered Sample of LiAICh" J. Electrochem. Soc., Vol. 127, No. 1, pp.236-8. Jan. 1980

4. G. H. Kucera, "Thermal Characterization of Lithium AIuminate/Alkali Carbonate Electrolyte Structure", Proceedings of the 11th North American Thermal Analysis Society Conference, New Orieans, Oct. 18-22, pp. 90-94, Oct. 1981

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6. K. Tanimoto, M. Yanagida, T. Kojima, Y. Tamiva, and Y. Miyazaki, "Long Term Operation of 100-c m* Class Single Cell of MCFC", Proceedings of the 2nd IFCC, Japan, Feb. 5-8, pp. 207-210, 1996

7. P. Delahav and C. W. Tobias, Advances in Electrochemistry and Electrochemical Engineering, Vol. 2 Interscience Publishers, New York, 1962

8. T. Nishimura, J. Hosokawa, H. Urushibata, "Development of Molten Carbonate Fuel Cell -Investigation of Internal Resistance of Electrolyte Matrix", Abstracts of the 34th Battery Symposium in Japan, Nov. 22-24, ppl33-4, 1993

9! T. Nishimura, Y. Fujita, H. Urushibata, A. Sasaki, "Study of Particle Growth and Phase Transformation of MCFC Matrix", Abstracts of the 37th Battery Symposium in Japan, Sept. 25-27,2B11, 1996 ' '

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