Paper Info
Title
Energy Management Of A Fuel-Cell Serial-Parallel Hybrid System
Abstract
In this paper, a serial-parallel hybrid (SPH) power system formed by a fuel cell (FC), an auxiliary storage device (ASD), and the current-controlled dc-dc converters responsible for the power management are realized by using the digital signal controller (DSC) TMS32F28335. The main energy management goal is to transfer energy from the sources (FC or ASD) to the load while ensuring dc bus voltage regulation and high power conversion efficiency. In addition, a safe and reliable operation of the system has to be achieved. The selected converter and its controller features are noninverting voltage step up and step down, high efficiency, regulation of input and output currents and low ripple values, and the ability to change from input to output current regulation loop, suddenly and smoothly, and vice versa. All these features allow it to be positioned in different FC system localizations and simplify the design of the master control. Simulation and experimental results have been validated on a 48-V 1200-W dc bus.
Year
DOI
Venue
2015
10.1109/TIE.2015.2395386
IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS
Keywords
Field
DocType
Current control, dc power systems, dc-dc power conversion, digital control, energy management, fuel cells (FCs), power conditioning, power system control
Stand-alone power system,Power-flow study,DC-BUS,Control theory,Voltage optimisation,Electric power system,Power factor,Control engineering,Electronic engineering,Engineering,Power optimizer,Switched-mode power supply
Journal
Volume
Issue
ISSN
62
8
0278-0046
Citations 
PageRank 
References 
4
0.51
9
Authors
5
Name
Order
Citations
PageRank
Harrynson Ramirez-Murillo160.99
Carlos Restrepo2182.55
Javier Calvente39013.88
Alfonso Romero4345.29
Roberto Giral59414.17