Publication
Sliding mode strategy for PEM fuel cells stacks breathing control using a super-twisting algorithm
Journal Article (2009)
Journal
IEEE Transactions on Control Systems Technology
Pages
167-174
Volume
17
Number
1
Doc link
http://dx.doi.org/10.1109/TCST.2008.922504
File
Authors
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Kunusch, Cristian
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Puleston, Pablo Federico
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Mayosky, Miguel Ángel
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Riera Colomer, Jordi
Projects associated
Abstract
A second-order sliding mode strategy to control the breathing subsystem of a polymer electrolyte membrane fuel cell stack for transportation applications is presented. The controller is developed from a design model of the plant derived from open literature, and well suited for the design of second-order sliding mode strategies. Stability issues are solved using a super twisting algorithm. The resulting approach exhibits good dynamic characteristics, being robust to uncertainties and disturbances. Simulations results are provided, showing the feasibility of the approach.
Categories
automation, power system control.
Author keywords
energy conversion, fuel cells, hydrogen, nonlinear systems, sliding mode control
Scientific reference
C. Kunusch, P.F. Puleston, M.Á. Mayosky and J. Riera. Sliding mode strategy for PEM fuel cells stacks breathing control using a super-twisting algorithm. IEEE Transactions on Control Systems Technology, 17(1): 167-174, 2009.
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