Title :
Current Distribution Identification in Fuel Cell Stacks From External Magnetic Field Measurements
Author :
Le Ny, M. ; Chadebec, Olivier ; Cauffet, G. ; Dedulle, J.-M. ; Bultel, Y. ; Rosini, S. ; Fourneron, Y. ; Kuo-Peng, P.
Author_Institution :
G2ELab, Univ. of Grenoble, Grenoble, France
Abstract :
This paper presents a new non invasive technique for fuel cell diagnosis. The method relies on the measurements of the magnetic field signature generated by a working fuel cell. Knowing the relationship between currents and magnetic field, it is possible to estimate the current density by solving an inverse problem. This problem being ill-posed, original current and sensors basis are proposed to improve the reconstruction process. The experimental set-up remains simple, based on few fixed sensors and shows a good efficiency.
Keywords :
current density; fuel cells; inverse problems; magnetic field measurement; magnetic sensors; current density; current distribution identification; external magnetic field measurements; fuel cell diagnosis; fuel cell stacks; inverse problem; noninvasive technique; reconstruction process; sensors; Current density identification; fuel cell; inverse problems; magnetostatics;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2239967
