Yoshiyuki Izaki scite author profile

A model of the performance of a molten carbonate fuel cell (MCFC) is required to estimate the efficiency of an MCFC power plant or to simulate the internal state of a stack. The model should provide an accurate representation of the performance under various operating conditions. However, the performance estimated by previous models has been found to deviate from the measured performance under low oxygen and carbon dioxide cathode partial pressures. To solve this problem, we carried out a systematic analysis of the performance of several bench-scale cells operated under various cathode gas conditions and investigated a model of cathode polarization according to the oxygen reduction mechanism in molten carbonate. As a result, it has been clarified that the behavior of cathode polarization under various conditions is described well by the dependence of mixed diffusion of superoxide ion O2 and CO 2 in the melt on the assumed partial pressures at each total operating pressure.

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Numerical analyses of the internal conditions of a molten carbonate fuel cell stack: comparison of stack performances for various gas flow types

Yoshiba

Ono

Izaki

et al. 1998

Journal of Power Sources

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Applicability of molten carbonate fuel cells to various fuels

Watanabe

Izaki

Mugikura

et al. 2006

Journal of Power Sources

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Direct observation of the oxidation nickel in molten carbonate

Izaki

Mugikura

Watanabe

et al. 1998

Journal of Power Sources

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Yoshiyuki Izaki

Performance analysis of molten carbonate fuel cell using a Li/Na electrolyte

Model of Cathode Reaction Resistance in Molten Carbonate Fuel Cells

Numerical analyses of the internal conditions of a molten carbonate fuel cell stack: comparison of stack performances for various gas flow types

Applicability of molten carbonate fuel cells to various fuels

Direct observation of the oxidation nickel in molten carbonate

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