The development of autonomous microgrids presents a suitable
alternative for electrifying isolated communities. However, to achieve truly
virtuous solutions for environmental protection, a sustainable energy
management system is highly recommended. This research project, located on
Reunion Island, focuses on modelling the solar resource and user consumption
profiles within a microgrid using specialised instrumentation. An innovative
human-machine interface (HMI) is then developed and tested in a real-world configuration.
This interface utilises a mathematical optimisation program to manage the
microgrid effectively. The project meticulously examines the optimal operating
point of the entire system, encompassing power generation devices, storage
elements, and ultimately, household energy delivery. Tests have demonstrated
that, in operational mode, the level of user acceptance of the management tool
was highly satisfactory. The tool provides users with real-time information on
the performance of the microgrid, which they found very helpful. This pilot
program serves as a springboard for the future installation of numerous
microgrids throughout this remote region.
Author(s)details:-
D. Calogine
PIMENT Laboratory, University of La Reunion, France.
O. Chau
PIMENT Laboratory, University of La Reunion, France.
T.
Fanjirindratovo
Physics and Environment Laboratory, University of Toliara, Madagascar
O.
Ramiarinjanahary
Physics and Environment Laboratory, University of Toliara, Madagascar.
J. Francou
PIMENT Laboratory, University of La Reunion, France.
P.
Rasoavonjy
PIMENT Laboratory, University of La Reunion, France.
C. Abbezzot
PIMENT Laboratory, University of La Reunion, France.
Please See
the book here :- https://doi.org/10.9734/bpi/strufp/v2/176
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