Title :
Power flow management in hybrid power system using flatness based control
Author :
Santos, G.V. ; de Oliveira, F.H. ; Cupertino, A.F. ; Pizziollo, T.A. ; Pereira, Helder A.
Abstract :
Several techniques of control require a linear mathematical model in order to get an inverse dynamic solution. However, in more complex systems the linearization is not enough to solve the problem. A new class of systems called "flatness systems" that allows the entire description of the state\´s trajectories, and so to improve the dynamic response of those systems. This paper introduces a simulation of the power flow control of hybrid power system using the technique of planning.
Keywords :
hybrid power systems; linear systems; load flow control; mathematical analysis; power system control; power system management; power system planning; power system simulation; dynamic response; flatness based control; hybrid power system; inverse dynamic solution; linear mathematical model; planning; power flow management; power system simulation; Batteries; Hybrid power systems; Load flow; Planning; Smart grids; Trajectory; Voltage control; DC / DC Boost converter; Energy management; flatness control;
Conference_Titel :
Innovative Smart Grid Technologies Latin America (ISGT LA), 2013 IEEE PES Conference On
Conference_Location :
Sao Paulo
Print_ISBN :
978-1-4673-5272-7
DOI :
10.1109/ISGT-LA.2013.6554438
