A Fully Analytical PEM Fuel Cell System Model for Control Applications

Author

Grasser, Felix ; Rufer, Alfred

Author_Institution

Rolex SA, Geneva

Volume

43

Issue

6

fYear

2007

Firstpage

1499

Lastpage

1506

Abstract

Maintaining a fuel cell (FC) system in correct operating conditions when subjected to fast load changes requires good system control. The best results are typically achieved using model-based control strategies. This paper elaborates a control-oriented proton exchange membrane FC system model in two distinct steps. First, the FC auxiliary systems (i.e., air and hydrogen supply along with thermal management) are described in a state-space approach linking user input to FC operating conditions. A steady-state FC stack model then describes the effect of those operating conditions on system performance. The model then allows the implementation of advanced control strategies such as multivariable control with decoupling, actuator sensitivity analysis or maximum efficiency tracking algorithms.

Keywords

proton exchange membrane fuel cells; state-space methods; PEM fuel cell system model; PEMFC; actuator sensitivity analysis; analytical model; auxiliary systems; control applications; control-oriented proton exchange membrane fuel cell system model; maximum efficiency tracking algorithm; model-based control strategies; multivariable control; operating conditions; state-space control; steady-state FC stack model; Biomembranes; Control system synthesis; Control systems; Fuel cells; Hydrogen; Joining processes; Protons; Steady-state; System performance; Thermal management; Fuel cell (FC); modeling; state-space control;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2007.908185

Filename

4384992