Abstract

The study of a double-stage single-phase inverter for fuel-cell-based applications is proposed in this paper. A novel control strategy aimed at reducing the low-frequency oscillations of the fuel-cell (FC) current in order to guarantee the FC safety operating conditions is proposed. The reduction of such oscillations increases the FC lifetime and avoids high mechanical stress of the membrane and unnecessary consumption of reactants. Furthermore, it allows one to design a strategy for extracting the maximum power from the FC stack with a total control of the concentration losses. Simulation and experimental results confirm the effectiveness of the proposed approach.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Distributed Maximum Power Extraction From Fuel Cell Stack Arrays Using Dedicated Power Converters in Series and Parallel Configuration
Boddu Somaiah ... Vivek Agarwal
IEEE Transactions on Energy Conversion | VOL. 31
Boddu Somaiah, et. al.Boddu Somaiah ... Vivek Agarwal
01 Dec 2016
Novel fast and high accuracy maximum power point tracking method for hybrid photovoltaic/fuel cell energy conversion systems
Hassan Fathabadi
Solar and Wind Technology | VOL. 106
Hassan FathabadiHassan Fathabadi
18 Jan 2017
Novel highly accurate universal maximum power point tracker for maximum power extraction from hybrid fuel cell/photovoltaic/wind power generation systems
Hassan Fathabadi
Energy (Oxford, England) | VOL. 116
Hassan FathabadiHassan Fathabadi
03 Oct 2016
A computationally efficient jaya optimization for fuel cell maximum power tracking
Ramesh Gugulothu ... Deepak Pullaguram
Energy Sources, Part A: Recovery, Utilization, and Environmental Effects | VOL. 44
Ramesh Gugulothu, et. al.Ramesh Gugulothu ... Deepak Pullaguram
24 Mar 2022
View more papers

More From: IEEE transactions on industrial electronics (1982)

Paper Title
Journal
Date
Author
Vector-Space-Decomposition-Based Power Flow Control of Single-Stage-Multiport-Inverter-Fed PMSM Drive for Hybrid Electric Vehicles
Dehong Zhou ... Kehan Luo
IEEE transactions on industrial electronics (1982) | VOL. 71
Dehong Zhou, et. al.Dehong Zhou ... Kehan Luo
01 Aug 2024
IEEE Industrial Electronics Society Information
-
IEEE transactions on industrial electronics (1982) | VOL. -
--
01 Aug 2024
Model-Based Reinforcement Learning With Probabilistic Ensemble Terminal Critics for Data-Efficient Control Applications
Jonghyeok Park ... Soohee Han
IEEE transactions on industrial electronics (1982) | VOL. 71
Jonghyeok Park, et. al.Jonghyeok Park ... Soohee Han
01 Aug 2024
A Robust Predefined-Time Sliding Mode Predictive Control for SPMSM Speed Regulation Systems Using an Ultralocal Model
Long He ... Fengxiang Wang
IEEE transactions on industrial electronics (1982) | VOL. 71
Long He, et. al.Long He ... Fengxiang Wang
01 Aug 2024
View more papers