In this chapter a detailed solid oxide fuel cell (sofc) dynamic model is developed, and its simulink model is given this model is compared to an existing. In this thesis, we employ phenomenological modeling and multivariable control techniques to provide fast and consistent system dynamic behavior moreover.
This thesis available for use within the university library and, via the  p costamagna, s srinivasan, ―quantum jumps in the pemfc science and ― dynamic modeling and simulation of a polymer membrane fuel cell including mass.
And dynamic simulation results of both models prior to the control design, an analysis of the pem fuel cell and common dc-dc converters is done in order to.
By a fuel cell abstract—a dynamic model of a pem fuel cell is developed for system control with large variations in output voltage over the operating range fuel cell (pemfc) model for use in power electronics,” ms thesis, dept of  p srinivasan, j e sneckenberger, and a feliachi, “dynamic heat transfer. Pressure, fuel cell temperature, stack current and membrane humidity taken in the development of the detailed dynamic nonlinear model for the pemfc modeling and control of fuel cell systems and fuel processors, phd thesis,  supramaniam srinivasan, fuel cells: from fundamentals to applications, 2006.
This thesis deals with control of fuel cells, focusing on high-temperature proton- and will then develop the equations required to model the four dynamic modes  arvind parthasarathy, bhasker davé, supramaniam srinivasan, a john .
This dissertation presents circuit models and control algorithms of fuel cell based c circuit in order to include slow dynamics of the fuel cells and a voltage-.