del Real, A.J.; Pastor, A.; Durán, J. Generic Framework for the Optimal Implementation of Flexibility Mechanisms in Large-Scale Smart Grids. Energies2021, 14, 8063.
del Real, A.J.; Pastor, A.; Durán, J. Generic Framework for the Optimal Implementation of Flexibility Mechanisms in Large-Scale Smart Grids. Energies 2021, 14, 8063.
del Real, A.J.; Pastor, A.; Durán, J. Generic Framework for the Optimal Implementation of Flexibility Mechanisms in Large-Scale Smart Grids. Energies2021, 14, 8063.
del Real, A.J.; Pastor, A.; Durán, J. Generic Framework for the Optimal Implementation of Flexibility Mechanisms in Large-Scale Smart Grids. Energies 2021, 14, 8063.
Abstract
This paper aims to provide the smart grid research community with an open and accessible general mathematical framework to develop and implement optimal flexibility mechanisms in large-scale network applications. The motivation of this paper is twofold. On the one hand, flexibility mechanisms are currently a hot topic of research, which is aimed to mitigate variation and uncertainty of electricity demand and supply in decentralised grids with a high aggregated share of renewables. On the other hand, a large part of such related research is performed by heuristic methods, which are generally inefficient (such methods do not guarantee optimality) and difficult to extrapolate for different use cases. Alternatively, this paper presents an MPC-based (Model Predictive Control) framework explicitly including a generic flexibility mechanism which is easy to particularise to specific strategies such as Demand Response, Flexible Production and Energy Efficiency Services. The proposed framework is benchmarked with other non-optimal control configurations to better show the advantages it provides. The work of this paper is completed by the implementation of a generic use case which aims to further clarify the use of the framework and thus, to ease its adoption by other researchers in their specific flexibility mechanisms applications.
Keywords
large-scale systems; aggregated constraints; aggregated terms; flexibility mechanisms; control algorithm; Model Predictive Control; Centralised MPC; Decentralised MPC; state-space model
Subject
Engineering, Control and Systems Engineering
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.