Performance analysis of a pressurized molten carbonate fuel cell/micro-gas turbine hybrid system

## Abstract This paper addresses the design and part load performance analysis of a hybrid system (HS) combining a molten carbonate fuel cell stack with a micro gas turbine. A numerical simulation is carried out in order to define the optimal parameters of the HS. The calculation results show that

This study deals with the thermodynamic analysis of molten carbonate fuel cell combined with a gas turbine, based on the first-and second-law of thermodynamics. The mass, energy, entropy and exergy balance equations are written and applied to the system and its components. Some parametric studies ar

many advantages, such as excellent performance and enhanced safety. The performance improvement is achieved because of strong mechanical integrity (cycle life) and absence of binder (shelf life) in C-C composite. The enhancement in safety comes from high thermal conductivity, fire retardant characte

MGT) Least squares support vector machine (LS-SVM) Particle swarm optimization (PSO) a b s t r a c t For a solid oxide fuel cell (SOFC) integrated into a micro gas turbine (MGT) hybrid power system, SOFC operating temperature and turbine inlet temperature are the key parameters, which affect the per