Title :
A semi-empirical multipurpose steady-state model of a fuel cell for household appliances
Author :
Boscaino, V. ; Miceli, Rosario ; Capponi, G.
Author_Institution :
Dept. of Energy, Inf. Eng. & Math. Models (DEIM), Univ. of Palermo, Palermo, Italy
Abstract :
In this paper, a multipurpose model of a proton exchange membrane fuel cell for household appliances is proposed. According to a conventional mathematical approach, the proposed model is derived from the physical and electro-chemical equations that rule the fuel cell behaviour. Differently from existing models, a parametric analysis is carried out and a few tunable parameters are accurately selected and identified. Furthermore, this paper proposes an innovative technique of unique model architecture which enables the designer to solve by himself the trade-off between complexity and accuracy on the basis of the specific applications. Three different choices could be performed by the designer. The model is derived and performances are discussed. Experimental validation on a 5kW Nuvera PowerFlow fuel cell is proposed to test the absolute accuracy of each submodel.
Keywords :
domestic appliances; proton exchange membrane fuel cells; Nuvera PowerFlow fuel cell; complexity-accuracy trade-off; conventional mathematical approach; electrochemical equation; fuel cell behaviour; household appliances; parametric analysis; physical equation; power 5 kW; proton exchange membrane fuel cell; semiempirical multipurpose steady-state model; tunable parameters; Accuracy; Complexity theory; Fuel cells; Integrated circuit modeling; Mathematical model; Steady-state; Temperature measurement; fuel cell; modelling; proton exchange membrane fuel cell; renewable energy sources; semi-empirical model;
Conference_Titel :
Clean Electrical Power (ICCEP), 2013 International Conference on
Conference_Location :
Alghero
Print_ISBN :
978-1-4673-4429-6
DOI :
10.1109/ICCEP.2013.6586922
