Theoretical study of a molten carbonate fuel cell stack for pressurized operation

## Abstract Fuel cells are considered to be ultra‐clean energy conversion systems because the pollutants emitted during their operating time are very low in concentration. For this reason, fuel cells can represent the answer to several environmental issues. What is important, however, is to careful

## Abstract A mathematical model based on fluid dynamics and heat‐transfer theories was applied to predict gas dynamic pressure and temperature distribution in a coflow molten carbonate fuel cell (MCFC) stack. The mass balance was simplified to obtain exact solutions with an assumption of uniform c

This paper investigates the operating characteristics of a molten carbonate fuel-cell power-generation system by using dynamic simulations. The implementation of the system model and the evaluation of the system model performance are presented and the model e!ectiveness for improving system operatio

## Abstract Based on the conservation of energy and conservation of mass, as well as considering the mass transfer in the electrodes‐electrolyte interface and its effect on Molten Carbonate Fuel Cell (MCFC) thermal characteristics, this paper presents a mathematical model to modify the dynamic perf