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EMR modelling of a hydrogen-based electrical energy storage

Published online by Cambridge University Press:  18 May 2011

K. S. Agbli*
Affiliation:
University of Franche-Comté, Femto-ST UMR 6174, FC LAB Institute, Bât. F, Rue Thierry Mieg, 90016 Belfort Cedex, France Signals and Systems laboratory, University of Cocody-Abidjan, 01 BP V34, Abidjan 01, Ivory Coast
D. Hissel
Affiliation:
University of Franche-Comté, Femto-ST UMR 6174, FC LAB Institute, Bât. F, Rue Thierry Mieg, 90016 Belfort Cedex, France
M.-C. Péra
Affiliation:
University of Franche-Comté, Femto-ST UMR 6174, FC LAB Institute, Bât. F, Rue Thierry Mieg, 90016 Belfort Cedex, France
I. Doumbia
Affiliation:
Signals and Systems laboratory, University of Cocody-Abidjan, 01 BP V34, Abidjan 01, Ivory Coast
*
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Abstract

This paper deals with multi-physics modelling of the stationary system. This modelling is the first step to reach the fuel cell system dimensioning aim pursued. Besides this modelling approach based on the stationary energetic system, the novelty in this paper is both the new approach of the photovoltaic EMR modelling and the EMR of the hydrogen storage process. The granular modelling approach is used to model each component of the system. Considering a stand alone PEM fuel cell system, hydrogen is expected to be produced and stored on the spot from renewable energy (photovoltaic) in order to satisfy the fuel availability. In fact, to develop a generic and modular model, energetic macroscopic representation (EMR) is used as graphical modelling tool. Allowing to be easily grasped by the experts even not necessarily gotten used to the modelling formalism, EMR is helpful to model the multi-domains energetic chain. The solar energy through solar module is converted in electrical energy; part of this energy is transformed in chemical energy (hydrogen) thanks to an electrolyser. Then the hydrogen is compressed into a tank across a storage system. The latter part of the solar module energy is stored as electrical energy within supercapacitor or lead-acid battery. Using the modularity feature of the EMR, the whole system is modelled entity by entity; afterwards by putting them together the overall system has been reconstructed. According to the scale effect of the system entities, some simulation and/or experimental results are given. Given to the different aims which are pursued in the sustainable energy framework like prediction, control and optimisation, EMR modelling approach is a reliable option for the energy management in real time of energetic system in macroscopic point of view.

Type
Research Article
Copyright
© EDP Sciences, 2011

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