This article presents an economic model predictive control (EMPC) algorithm for reducing losses and increasing the resilience of medium-voltage electricity distribution grids characterized by high penetration of renewable energy sources and possibly subject to natural or malicious adverse events. The proposed control system optimizes grid operations through network reconfiguration, control of distributed energy storage systems (ESSs), and on-load tap changers. The core of the EMPC algorithm is a nonconvex optimization problem integrating the ESSs dynamics, the topological and power technical constraints of the grid, and the modeling of the cascading effects of potential adverse events. An equivalent (i.e., having the same optimal solution) proxy of the nonconvex problem is proposed to make the solution more tractable. Simulations performed on a 16-bus test distribution network validate the proposed control strategy.
Efficient and Risk-Aware Control of Electricity Distribution Grids / Liberati, Francesco; Di Giorgio, Alessandro; Giuseppi, Alessandro; Pietrabissa, Antonio; Delli Priscoli, Francesco. - In: IEEE SYSTEMS JOURNAL. - ISSN 1932-8184. - 14:3(2020), pp. 3586-3597. [10.1109/JSYST.2020.2965633]
Efficient and Risk-Aware Control of Electricity Distribution Grids
Liberati, Francesco
;Di Giorgio, Alessandro;Giuseppi, Alessandro;Pietrabissa, Antonio;Delli Priscoli, Francesco
2020
Abstract
This article presents an economic model predictive control (EMPC) algorithm for reducing losses and increasing the resilience of medium-voltage electricity distribution grids characterized by high penetration of renewable energy sources and possibly subject to natural or malicious adverse events. The proposed control system optimizes grid operations through network reconfiguration, control of distributed energy storage systems (ESSs), and on-load tap changers. The core of the EMPC algorithm is a nonconvex optimization problem integrating the ESSs dynamics, the topological and power technical constraints of the grid, and the modeling of the cascading effects of potential adverse events. An equivalent (i.e., having the same optimal solution) proxy of the nonconvex problem is proposed to make the solution more tractable. Simulations performed on a 16-bus test distribution network validate the proposed control strategy.File | Dimensione | Formato | |
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