Author:
Jie Gao , ,Hai Gu ,Yuwei Yang ,Ping Yuan , ,
Abstract
Proton Exchange Membrane as one of the most advanced types of fuel cells plays an effective role in renewable energy generation and supply manifold is one of its main subsystems. Aiming to cover nonlinear behaviour, this study presents a new robust method for controlling the supply manifold pressure at the cathode side. To consider the uncertainty effects as well as the nonlinear behaviour of the supply manifold, a delayed transfer function model is considered. The proposed reset control approach improves the transient response in regulating the supply manifold pressure at the cathode side. The simulation and comparison results in MATLAB environment show the capabilities of the proposed method to improve the transient response of the system from different perspectives and stability despite of uncertainty effects.
Subject
Electrical and Electronic Engineering,Control and Systems Engineering
Reference24 articles.
1. Renewable energy sources as a solution for energy security risk: Empirical evidence from OECD countries;"[1] Cergibozan;Renewable Energy,2022
2. A review on biomass and wind as renewable energy for sustainable environment;Amjith;Chemosphere 133579,2022
3. Robust adaptive fuzzy control for single-chamber single-population microbial fuel cell;Fu;Systems Science & Control Engineering,2021
4. [4] Fu, X.W., Fu, L., Marrani, H.I. (2021). Stabilization of a single chamber single population microbial fuel cell by using of a novel nonlinear adaptive sliding mode control. Journal of New Materials for Electrochemical Systems, Vol. 24, No. 1, pp. 14-20. https://doi.org/10.14447/jnmes.v24i1.a03.
5. PEM fuel cell as an auxiliary power unit for range extended hybrid electric vehicles;Dimitrova;Energy 239 121933,2022