Performances Analysis of a Micro-Grid Connected Multi-Renewable Energy Sources System Associated with Hydrogen Storage
Résumé
This work highlights the modeling and simulation of a micro-grid connected renewable energy system. It comprises of wind turbine (WT) based on doubly fed induction generator (DFIG), photovoltaic generator (PV), fuel cell (FC) generator,
a Hydrogen tank, a water electrolyzer used for long-term storage, and a battery
bank energy storage system (BBESS) utilized for short-term storage. In this paper,
a global control strategy and an energy management strategy are proposed for the
overall system. This strategy consists in charging the BBESS and producing hydrogen
from the water electrolyzer in case of power excess provided from WT-DFIG
and photovoltaic generators. Therefore, the FC and the BBESS will be used as a
backup generator to supply the demand required power, when the WT-DFIGs and
the PV energy are deficient. The effectiveness of this contribution is verified
through computer simulations under Matlab/Simulink, where very satisfactory
results are obtained.
Domaines
Sciences de l'ingénieur [physics]Origine | Fichiers éditeurs autorisés sur une archive ouverte |
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