An online energy management strategy for a fuel cell/battery vehicle considering the driving pattern and performance drift impacts


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Kandidayeni, M. et Macias, A. et Khalatbarisoltani, A. et Boulon, L. et Kelouwani, S. et Chaoui, H. (2019). An online energy management strategy for a fuel cell/battery vehicle considering the driving pattern and performance drift impacts. IEEE Transactions on Vehicular Technology, 68 (12). p. 11427-11438. ISSN 0018-9545 DOI 10.1109/TVT.2019.2936713

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Energy management strategy (EMS) has a profound influence over the performance of a fuel cell hybrid electric vehicle since it can maintain the energy sources in their high efficacy zones leading to efficiency and lifetime enhancement of the system. This paper puts forward an online multi-mode EMS to efficiently split the power among the components while embracing the effects of the driving conditions and performance degradation of the fuel cell system. In this regard, firstly, a self-organizing map (SOM) is trained to cluster the driving patterns. The SOM competitive layer in this work is composed of ten driving features as inputs and it classifies the driving patterns into three classes in the output. Subsequently, a three-mode fuzzy logic controller (FLC) is designed and optimized offline by the genetic algorithm for each driving pattern. Unlike the other similar works, the output membership function of the FLC is designed based on the online identification of the maximum power and efficiency of the fuel cell system which change over time. Finally, the SOM is utilized to recognize the driving mode at each sequence and accordingly activate the most suitable mode of the FLC to meet the requested power by efficient use of the energy sources. The performance of the proposed EMS has been validated by using the hardware-in-the-loop platform for several scenarios. The experimental results analyses indicate the promising performance of the suggested methodology in terms of ameliorating hydrogen economy and the fuel cell system lifetime.

Type de document: Article
Mots-clés libres: energy management fuel cells self-organizing feature maps hybrid electric vehicles degradation hydrogen batteries driving condition prediction fuel cell hybrid electric vehicle fuzzy logic control PEMFC online parameter estimation self-organizing map
Date de dépôt: 21 janv. 2020 16:08
Dernière modification: 21 janv. 2020 20:16
Version du document déposé: Post-print (version acceptée)
URI: http://depot-e.uqtr.ca/id/eprint/9031

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