The implementation of the Distributed Generation (DG) concept requires to face with technical issues regarding integration and control of energy fluxes at the grid nodes. A predictive control strategy integrating renewable and non-renewable sources, as well as energy storage systems, is a potential solution to face with the aforementioned problems. The behavior of a smart building consisting of 30 apartments has been considered in this work. The Hybrid Renewable System (HRS) has been controlled by a Model Predictive Control (MPC) strategy. The HRS includes both sub-systems for the conversion of renewable energy sources and non-renewable ones, connected to the main grid. Several scenarios have been tested under different weather conditions and renewable sources penetration quotas. Results obtained with the MPC control strategy have been compared with a Rule Based Control (RBC) one, turning out that the use of MPC improves the integration of the residential microgrid with the renewable sources available at the grid thanks to the predictive system smoothing out the energy demand profile and absorbing the peak of production from the photovoltaic and wind farms, even in cases of high RES penetration.

Bartolucci, L., Cordiner, S., Mulone, V., Rocco, V., Rossi, J.l. (2018). Renewable source penetration and microgrids: Effects of MILP – Based control strategies. ENERGY, 152, 416-426 [10.1016/j.energy.2018.03.145].

Renewable source penetration and microgrids: Effects of MILP – Based control strategies

Bartolucci L.;Cordiner S.;Mulone V.;Rocco V.;Rossi J. L.
2018-01-01

Abstract

The implementation of the Distributed Generation (DG) concept requires to face with technical issues regarding integration and control of energy fluxes at the grid nodes. A predictive control strategy integrating renewable and non-renewable sources, as well as energy storage systems, is a potential solution to face with the aforementioned problems. The behavior of a smart building consisting of 30 apartments has been considered in this work. The Hybrid Renewable System (HRS) has been controlled by a Model Predictive Control (MPC) strategy. The HRS includes both sub-systems for the conversion of renewable energy sources and non-renewable ones, connected to the main grid. Several scenarios have been tested under different weather conditions and renewable sources penetration quotas. Results obtained with the MPC control strategy have been compared with a Rule Based Control (RBC) one, turning out that the use of MPC improves the integration of the residential microgrid with the renewable sources available at the grid thanks to the predictive system smoothing out the energy demand profile and absorbing the peak of production from the photovoltaic and wind farms, even in cases of high RES penetration.
2018
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore ING-IND/08 - MACCHINE A FLUIDO
English
DC microgrids; Demand response; Distributed Generation; Fuel cells; Model Predictive Control; Renewable energy source
Bartolucci, L., Cordiner, S., Mulone, V., Rocco, V., Rossi, J.l. (2018). Renewable source penetration and microgrids: Effects of MILP – Based control strategies. ENERGY, 152, 416-426 [10.1016/j.energy.2018.03.145].
Bartolucci, L; Cordiner, S; Mulone, V; Rocco, V; Rossi, Jl
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/247324
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