Title :
Control-Oriented Thermal Modeling Methodology for Water-Cooled PEM Fuel-Cell-Based Systems
Author :
Rojas, Jose David ; Kunusch, Cristian ; Ocampo-Martinez, Carlos ; Puig, Vicenc
Author_Institution :
Escuela de Ing. Electr., Univ. de Costa Rica, San Jose, Costa Rica
Abstract :
In this paper, a new control-oriented modeling methodology for the thermal dynamics of water-cooled Proton Exchange Membrane Fuel Cells (PEMFCs) is presented and validated. This methodology is not only useful for control applications, but also can be used for predicting the temperature variation across the stack, allowing to monitor its operation. The methodology has been validated in a real 600-W, 20-cells, water cooled PEMFC, with encouraging results for both the stationary and the transient states. Results show that the proposed methodology is accurate and suitable for control purposes.
Keywords :
power system control; power system simulation; power system transients; proton exchange membrane fuel cells; thermal analysis; control-oriented thermal modeling methodology; power 600 W; transient states; water cooled PEMFC; water-cooled PEM fuel-cell-based systems; water-cooled proton exchange membrane fuel cells; Anodes; Cooling; Graphite; Temperature measurement; Thermal resistance; Water heating; Fuel cells; modeling; modelling; thermal modeling; thermal modelling; water cooling;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2015.2405332
