The application of high temperature fuel cells in stationary power generation seems to be one of the possible solutions to the problem related to the environment preservation and to the growing interest for distributed electric power generation. Great expectations have been placed on both simple and hybrid fuel cell plants, thus making necessary the evolution of analysis strategies to evaluate thermodynamic performance, design improvements, and acceleration of new developments. This paper investigates the thermodynamic potential of combining traditional internal combustion energy systems (i.e., gas turbine and internal combustion engine) with a molten carbonate fuel cell for medium- and low-scale electrical power productions with low emissions. The coupling is performed by placing the fuel cell at the exhaust of the thermal engine. As in molten carbonate fuel cells the oxygen-charge carrier in the electrolyte is the carbonate ion, part of the in the gas turbine flue gas is moved to the anode and then separated by steam condensation. Plant performance is evaluated in function of different parameters to identify optimal solutions. The results show that the proposed power system can be conveniently used as a source of power generation.
Ultralow Carbon Dioxide Emission MCFC Based Power Plant
- Views Icon Views
- Share Icon Share
- Search Site
Chiappini, D., Andreassi, L., Jannelli, E., and Ubertini, S. (February 16, 2011). "Ultralow Carbon Dioxide Emission MCFC Based Power Plant." ASME. J. Fuel Cell Sci. Technol. June 2011; 8(3): 031003. https://doi.org/10.1115/1.4002903
Download citation file: