Operating characteristics of a molten carbonate fuel-cell power-generation system

The dynamic characteristics of molten carbonate fuel-cell power-generation systems under load-following modes have been investigated using dynamic simulation. The system model is comprised of connected network of 12 types of component models, which emulates the process flow diagram. The system model

A molten carbonate fuel cell system (MCFCS) often has high level integration of various components. A simulation tool is highly desirable for the investigation of such a complex system operating in load-following modes; thus, the theoretical modelling of a complete MCFCS has been presented in this p

A molten carbonate fuel-cell stack is a new, non-standard component in power-generation systems. Its power-generation capability and the safety operation with regard to load-following conditions must be identi"ed. A three-dimensional dynamic stack model using computational #uid dynamics technique is

Investigations have been carried out to study the influence of low operating temperature (873 K) on the decay mechanisms that affect the endurance of a molten carbonate fuel cell. An experiment has been performed for several thousands of hours of continuous operation at a current density of 160 mA c