Optimal Battery Aging : an Adaptive Weights Dynamic Programming Algorithm
Résumé
We present an algorithm to handle the optimization over a long horizon of an electric
microgrid including a battery energy storage system. While the battery is an important and
costly component of the microgrid, its aging process is often not taken into account by the
Energy Management System, mostly because of modeling and computing challenges. We address
the computing aspect by a new approach combining dynamic programming, decomposition and
relaxation techniques. We illustrate this ’adaptive weight’ method with numerical simulations
for a toy microgrid model. Compared to a straightforward resolution by dynamic programming,
our algorithm decreases the computing time by more than one order of magnitude, can be
parallelized, and allows for online implementations. We believe that this approach can be used
for other applications presenting fast and slow variables.
Domaines
Optimisation et contrôle [math.OC]Origine | Fichiers produits par l'(les) auteur(s) |
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