论文信息 - Three-Dimensional Simulation of a Molten Carbonate Fuel Cell Stack Under Transient Conditions

Three-Dimensional Simulation of a Molten Carbonate Fuel Cell Stack Under Transient Conditions

A numerical model has been developed to simulate the parameters distribution in molten carbonate fuel cell (MCFC) stacks under transient conditions. The stack model is the extension of the cell model by taking account of the heat transfer and gas transport processes with regard to the stack configuration. The stack model has been implemented by using a computational-fluid-dynamics (CFD) program. This paper demonstrates the model performance by applying it to calculate the responses of current density and temperature distributions to a step voltage change. The simulated temperature profiles are consistent with the simulated and experimental results from the literature.

W. He | Q. Chen | W. He | Q. Chen

[1] Nariyoshi Kobayashi,et al. Heat and Mass Transfer in a Molten Carbonate Fuel Cell (Experimental and Analytical Investigation of Fuel Cell Temperature Distribution) , 1989 .

[2] J. R. Selman,et al. A Performance and Current Distribution Model for Scaled‐Up Molten Carbonate Fuel Cells , 1980 .

[3] W. He,et al. Three-dimensional simulation of a molten carbonate fuel cell stack using computational fluid dynamics technique , 1995 .

[4] E. Achenbach. Three-dimensional and time-dependent simulation of a planar solid oxide fuel cell stack , 1994 .

[5] S. Patankar. Numerical Heat Transfer and Fluid Flow , 2018, Lecture Notes in Mechanical Engineering.

[6] N. Woudstra,et al. Exergy analysis of a fuel-cell system , 1995 .

[7] Nariyoshi Kobayashi,et al. Heat and Mass Transfer in a Molten Carbonate Fuel Cell : Performance and Temperature Distribution in a Cell Stack , 1992 .

[8] E. Achenbach. Response of a solid oxide fuel cell to load change , 1995 .

[9] M. Yamaguchi,et al. Analysis of control characteristics using fuel cell plant simulator , 1990 .

[10] Thomas L. Wolf,et al. Molten Carbonate Fuel Cell Performance Model , 1983 .

[11] N. H. Kemp,et al. Molten carbonate fuel cell performance model update. Final report , 1985 .

[12] M. Matsumura,et al. Development of an internal reforming molten carbonate fuel cell stack , 1995 .