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A gain-scheduled LPV control for oxygen stoichiometry regulation in PEM fuel cell systems

Author
Bianchi, F.; Kunusch, C.; Ocampo-Martinez, C.A.; Sánchez, R.S.
Type of activity
Journal article
Journal
IEEE transactions on control systems technology
Date of publication
2014
Volume
22
Number
5
First page
1837
Last page
1844
DOI
https://doi.org/10.1109/TCST.2013.2288992 Open in new window
Project funding
ACOFC: Advanced Controllers and Observers Development for Fuel Cell based Generation Systems
Desarrollo de sistemas de control para la mejora de la eficiencia y la vida útil en sistemas basados en pilas de combustible PEM
FP7-303419 Physical bottom Up Multiscale Modelling for Automotive PEMFC Innovative performance and Durability optimization
MACPERCON: Enhanced management topologies based on unfalsified control for PEM fuel cells performance improvement
Repository
http://hdl.handle.net/2117/27363 Open in new window
Abstract
The article addresses the LPV control of a Polymer Electrolyte Membrane Fuel Cell (PEMFC). In order to optimize efficiency, PEMFCs require reliable control systems ensuring stability and performance, as well as robustness to model uncertainties and external perturbations. On the other hand, PEMFCs present a highly nonlinear behavior that demands nonlinear and/or adaptive control strategies to achieve high performance in the entire operating range. Here, a linear parameter varying (LPV) gain sche...
Citation
Bianchi, F.D. [et al.]. "IEEE transactions on control systems technology". 2014.
Keywords
PEM fuel cells, anti-windup, automation, control system synthesis, control theory, gain scheduled control, linear parameter varying systems, oxygen stoichiometry, two-term control
Group of research
CS2AC-UPC - Supervision, Safety and Automatic Control
SAC - Advanced Control Systems

Participants

  • Bianchi, Fernando Daniel  (author)
  • Kunusch, Cristian  (author)
  • Ocampo Martinez, Carlos A.  (author)
  • Sánchez Peña, Ricardo Salvador  (author)