Title :
Energy flow control of Wind/PV/Batteries/Supercapacitors autonomous hybrid power sources using the flatness concept
Author :
Benaouadj, M. ; Ayad, M.Y. ; Becherif, M. ; Aboubou, A. ; Bahri, M. ; Akhrif, O.
Author_Institution :
Lab. of Energy Syst. Modeling, Univ. of Mohamed Kheider, Biskra, Algeria
Abstract :
In this paper, an autonomous Wind/Photovoltaic (PV) hybrid power sources using lead-acid batteries and supercapacitors as storage elements is presented. The lead-acid batteries are used to compensate the power demand which PV and wind generators can´t provide. Supercapacitors are employed to relieve the batteries of repeated charging and discharging ensuring longer hybrid source lifetime. The system is designed to supply a residential load. The exchanged power among different components is managed using a nonlinear control based on the flatness concept. Simulation results are presented and discussed for different wind speeds and solar illuminations.
Keywords :
hybrid power systems; lead acid batteries; load flow control; nonlinear control systems; photovoltaic power systems; supercapacitors; wind power plants; autonomous hybrid power sources; autonomous wind/photovoltaic hybrid power sources; energy flow control; flatness concept; hybrid source lifetime; lead-acid batteries; nonlinear control; power demand; residential load; solar illuminations; storage elements; supercapacitors; wind speeds; Batteries; Generators; Hybrid power systems; Lead; Production; Supercapacitors; Wind energy generation;
Conference_Titel :
Systems and Control (ICSC), 2013 3rd International Conference on
Conference_Location :
Algiers
Print_ISBN :
978-1-4799-0273-6
DOI :
10.1109/ICoSC.2013.6750993
