The dynamic performance of a molten carbonate fuel cell in power-generation systems

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

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

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

## Abstract A first principles‐based non‐linear dynamic model for a Molten Carbonate Fuel Cell system is presented, analysed, and further developed for model‐based control applications. Transient validation results, using a laboratory‐scale test stack, are provided in support of the cell stack mode