Polymer electrolyte membrane fuel cell fault diagnosis based on empirical mode decomposition

Cédric Damour; Michel Benne; Brigitte Grondin-Perez; Miloud Bessafi; Daniel Hissel; Jean-Pierre Chabriat

doi:10.1016/j.jpowsour.2015.09.041

Journal articles

Polymer electrolyte membrane fuel cell fault diagnosis based on empirical mode decomposition

Cédric Damour ¹ Michel Benne ¹ Brigitte Grondin-Perez ¹ Miloud Bessafi ¹ Daniel Hissel ² Jean-Pierre Chabriat ¹

1 LE2P - Laboratoire d'Energétique, d'Electronique et Procédés

2 FC LAB - Laboratoire Commun de Belfort : Hydrogène et Pile à Combustible pour les applications au transport

Abstract : Diagnosis tool for water management is relevant to improve the reliability and lifetime of polymer electrolyte membrane fuel cells (PEMFCs). This paper presents a novel signal-based diagnosis approach, based on Empirical Mode Decomposition (EMD), dedicated to PEMFCs. EMD is an empirical, intuitive, direct and adaptive signal processing method, without pre-determined basis functions. The proposed diagnosis approach relies on the decomposition of FC output voltage to detect and isolate flooding and drying faults. The low computational cost of EMD, the reduced number of required measurements, and the high diagnosis accuracy of flooding and drying faults diagnosis make this approach a promising online diagnosis tool for PEMFC degraded modes management.

Keywords : Empirical mode decomposition Flooding Drying PEM fuel cell Non-invasive fault diagnosis

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Journal articles

Domain :

Engineering Sciences [physics] / Chemical and Process Engineering

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Polymer electrolyte membrane fuel cell fault diagnosis based on empirical mode decomposition

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