Optimal management of electric power in microgrids under a strategic multi-objective decision-making approach and operational proportional adjustment

In energy management systems in microgrids, the combined and on-line use of optimisation and prediction rolling horizons of renewable power and demand may compromise the optimal performance. Usually, the medium-term optimal behaviour improves with additional available convergence time, while the err...

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Bibliographic Details
Published in:IET generation, transmission & distribution transmission & distribution, 2019-10, Vol.13 (19), p.4473-4481
Main Authors: López-Santiago, Dany Mauricio, Caicedo, Eduardo Francisco
Format: Article
Language:English
Subjects:
asynchronous decision making
broad power management
complementary management processes
decision making
distributed power generation
electric power
energy management systems
medium‐term optimal behaviour
microgrid operator
off‐line multiobjective optimisation
on‐line proportional redistribution
operational energy management system
operational power management
operational proportional adjustment
optimal management
optimisation
optimised energy plan
prediction rolling horizons
redispatch process
renewable power
Research Article
short‐term predictions
SO‐EMS evaluation
strategic energy management
strategic multiobjective decision‐making approach
strategical energy management system
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Summary:In energy management systems in microgrids, the combined and on-line use of optimisation and prediction rolling horizons of renewable power and demand may compromise the optimal performance. Usually, the medium-term optimal behaviour improves with additional available convergence time, while the error in predictions worsens with a broader horizon, against the using short-term predictions, which usually contributes to more accurate management. To address this problem, this study proposes the strategical and operational energy management system (SO-EMS) approach, which is based on three complementary management processes: (i) strategic energy management, based on off-line multi-objective optimisation on a rolling horizon, (ii) asynchronous decision making, which offers the ability to incorporate multiple criteria of a microgrid operator in the selection of an optimised energy plan, and (iii) operational power management, as an on-line proportional redistribution and redispatch process based on rules. The SO-EMS evaluation performed on a connected microgrid shows its ability to provide optimised plans on a rolling horizon of 24-h predictions and to adjust them to 1-m predictions. The evaluations made of the scheme also show flexibility because it is possible to redistribute the power assignments of units that are out of service. These features empower the SO-EMS in the broad power management of various connected microgrids.
ISSN:1751-8687
1751-8695
1751-8695
DOI:10.1049/iet-gtd.2019.0037