Title :
Energy Management DC System Based on Current-Controlled Buck-Boost Modules
Author :
Ramirez-Murillo, Harrynson ; Restrepo, Carlos ; Calvente, Javier ; Romero, Alfonso ; Giral, Roberto
Author_Institution :
Dept. d.Eng. Electron. Electr. i Autom., Univ. Rovira i Virgili, Tarragona, Spain
Abstract :
This paper presents the design guidelines of a series hybrid fuel cell system, including control and protection loops. This hybrid system consists of a fuel cell (FC), an auxiliary storage device (ASD), and current-controlled DC-DC converters responsible for managing the energy transfer between the FC, the ASD, and the load. The main advantages of the selected converter are its voltage step-up and step-down properties, high efficiency, and low input and output current ripples, which enable it to be positioned in all system locations, provided the corresponding controllers are suitably designed. Also, using the same module for all system converters simplifies the design and construction tasks. The theoretical analyses have been verified by simulations and validated experimentally on a 48 V 1500 W purpose-built DC bus.
Keywords :
DC-DC power convertors; electric current control; energy management systems; fuel cell power plants; ASD; DC-DC converters; auxiliary storage device; current controlled buck-boost modules; energy management DC system; protection loop; series hybrid fuel cell system; voltage 48 V; Capacitors; Control systems; Fuel cells; Topology; Transient analysis; Variable speed drives; Voltage control; Current control; DC--DC power converters; DC??DC power converters; digital control; energy management; fuel cell; power conditioning; power system control;
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2014.2330198
