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Research on the coordinated control of oxygen excess ratio and air pressure for PEMFC's air supply system

Wei Li, X.-W. Zhu, X. Wang, Zhouzhen Hu, Mingqing Wang

2024International Journal of Hydrogen Energy16 citationsDOIOpen Access PDF

Abstract

The proton exchange membrane fuel cell (PEMFC) air supply system is a complex nonlinear system with strong coupling of air flow and pressure. To avoid oxygen starvation and unstable output performance during rapid load changes, the oxygen excess ratio (OER) and air pressure need to be controlled effectively. To cope with the nonlinearity, coupling and uncertainty of the PEMFC air system, this paper puts forward a coordinated controller regulating OER and air pressure based on the input-output linearization and sliding mode methods. Firstly, a control-oriented third-order model is proposed to describe the dynamic behavior of the air supply system. Secondly, this paper decouples the flow and pressure of the PEMFC air system by using an input-output linearization method to obtain two independent linear subsystems. Moreover, a sliding mode method, effectively coping with the uncertainty of the system model, is designed to regulate the OER and air pressure of the PEMFC, which enhances the robustness of the control system. The overall simulation outcomes show that the proposed controller regulates OER and cathode pressure with smaller root mean square error (RMSE) and mean absolute percentage error (MAPE) compared with the combined proportional integral (PI) and feedforward controller.

Topics & Concepts

Control theory (sociology)LinearizationProton exchange membrane fuel cellNonlinear systemAirflowRobustness (evolution)Controller (irrigation)Feed forwardComputer scienceEngineeringChemistryControl engineeringFuel cellsMechanical engineeringPhysicsControl (management)GeneArtificial intelligenceAgronomyBiochemistryBiologyChemical engineeringQuantum mechanicsFuel Cells and Related MaterialsElectrocatalysts for Energy ConversionAdvancements in Solid Oxide Fuel Cells
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