Mechanical Effects in PEM Fuel Cell: Application to Modeling of Assembly Procedure

Martemianov, S.; Gueguen, M.; Grandidier, J. C.; Bograchev, D.

doi:10.36884/jafm.2.02.11869

Mechanical Effects in PEM Fuel Cell: Application to Modeling of Assembly Procedure

Authors

¹ Laboratoire d’Etudes Thermiques, LET UMR-CNRS 6608, Université de Poitiers - ESIP et ENSMA, 40, avenue du Recteur Pineau 86022 Poitiers Cedex France

² Laboratoire de Physique et Mécanique des Matériaux, LMPM UMR CNRS 6617, ENSMA, Téléport 2, 1, Av. Clément Ader, BP 40109 – 86962 FUTUROSCOPE Cédéx, France

³ Frumkin Institute of Physical Chemistry and Electrochemistry RAN, Moscow 117071, Leninsky prospect 31, Russia

10.36884/jafm.2.02.11869

Abstract

Mechanical effects can influence significantly electrical performance and life time of PEM fuel cells. A linear elasticplastic 2D model of fuel cell with hardening is used for modeling of assembly procedure of fuel cells. The model simulates mechanical behavior of the main components of real fuel cell (the membrane, the gas diffusion layers, the graphite plates, and the seal joints) and clamping elements (the steel plates, the bolts, the nuts). The stress and plastic deformation in MEA have been calculated using ABAQUS code. The results are presented on the local and the global scales with respect to the realistic clamping conditions. The first one corresponds to the single tooth/channel structure. The global scale deals with features of the entire cell and takes into account the border effects, in particular the influence of seal joints.

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Mechanical Effects in PEM Fuel Cell: Application to Modeling of Assembly Procedure

Volume 2, Issue 2
January 2012
Pages 49-54

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Mechanical Effects in PEM Fuel Cell: Application to Modeling of Assembly Procedure

Volume 2, Issue 2January 2012Pages 49-54

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Cited by

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Volume 2, Issue 2
January 2012
Pages 49-54