Master's thesis at University of Basrah examines the optimization of the maximum power of a fuel cell system using intelligent algorithms
A master's thesis at College of Engineering at University of Basrah examined the optimization of the maximum power point tracking of a fuel cell system using intelligent algorithms.
The thesis, presented by the student Mayada Karim Talib, aims to demonstrate the rise in energy needs, the depletion of fossil fuel resources, and the rise in the global warming phenomenon caused by carbon emissions. The need for a highly efficient, alternative and environmentally friendly energy system has developed.
The thesis concluded that considering PEMFC control, modeling, and steady-state oscillations are among the most important technological problems among them. This is because the unique nonlinearity of PEMFCs, time-varying features, and narrow operational limits always lead to great difficulties in modeling and controlling the system, which causes damage to the PEMFC and energy loss.
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