Title :
Energy Management and Power Control of a Hybrid Active Wind Generator for Distributed Power Generation and Grid Integration
Author :
Zhou, Tao ; François, Bruno
Author_Institution :
Univ. Lille Nord de France, Lille, France
Abstract :
Classical wind energy conversion systems are usually passive generators. The generated power does not depend on the grid requirement but entirely on the fluctuant wind condition. A dc-coupled wind/hydrogen/supercapacitor hybrid power system is studied in this paper. The purpose of the control system is to coordinate these different sources, particularly their power exchange, in order to make controllable the generated power. As a result, an active wind generator can be built to provide some ancillary services to the grid. The control system should be adapted to integrate the power management strategies. Two power management strategies are presented and compared experimentally. We found that the “source-following” strategy has better performances on the grid power regulation than the “grid-following” strategy.
Keywords :
direct energy conversion; distributed power generation; electric generators; energy management systems; hybrid power systems; power control; power generation control; power grids; power system management; supercapacitors; wind power; wind power plants; dc-coupled wind-hydrogen-supercapacitor hybrid power system; distributed power generation; energy management; fluctuant wind condition; grid integration; grid power regulation; hybrid active wind generator; passive generator; power control; power management strategy; wind energy conversion system; Control systems; Distributed power generation; Energy management; Hybrid power systems; Mesh generation; Power control; Power generation; Power system management; Wind energy generation; Wind power generation; Distributed power; energy management; hybrid power system (HPS); power control; wind generator (WG);
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2010.2046580
