The paper presents a centralized real-time adaptive and model-based voltage control algorithm for Active Distribution Networks (ADNs). Differently from the available literature, the proposed algorithm merely relies on the control of Battery Energy Storage Systems (BESSs). In this respect, an experimentally model-fitted two-time constant dynamic model of BESS is used. In particular, this model is used to compute the constraints of the BESSs in terms of DC active power at each controller iteration. These constraints are subsequently used in the central controller for the solution of the optimal voltage control problem. The performances of the proposed method are compared with those obtained for the case where BESSs are modeled as ideal energy...
The core of this activity is to provide distribution system operators with tools for the optimal and...
Due to the increased penetration of Distributed Generations (DGs) in distribution networks, the syst...
In this paper we consider an Active Distribution Network (ADN) that performs primary voltage control...
This paper proposes a real-time decentralized control algorithm in multi-area active distribution ne...
Commercial-scale, grid-connected Battery Energy Storage System (BESS) typically operates on price-dr...
peer reviewedThis paper proposes a new application for a Battery Energy Storage System (BESS) connec...
Less secured and stressed power system operating conditions have motivated the grid integration of r...
Dispatching active distribution networks (ADNs) is an energy-intensive application that, if implemen...
Control of battery energy storage systems (BESS) for active network management (ANM) should be done ...
Within the context of ancillary services provided to active distribution networks by distributed sto...
This paper presents a centralized control scheme to regulate distribution network voltages in the pr...
The paper presents a network partitioning strategy for the optimal voltage control of Active Distrib...
Large-scale integration of PV generators in distribution grids will impair the voltage stability due...
Typical optimal controls of power systems, such as scheduling of generators, voltage control, losses...
Decentralized generation, distributed energy storage systems and active participation of end-users i...
The core of this activity is to provide distribution system operators with tools for the optimal and...
Due to the increased penetration of Distributed Generations (DGs) in distribution networks, the syst...
In this paper we consider an Active Distribution Network (ADN) that performs primary voltage control...
This paper proposes a real-time decentralized control algorithm in multi-area active distribution ne...
Commercial-scale, grid-connected Battery Energy Storage System (BESS) typically operates on price-dr...
peer reviewedThis paper proposes a new application for a Battery Energy Storage System (BESS) connec...
Less secured and stressed power system operating conditions have motivated the grid integration of r...
Dispatching active distribution networks (ADNs) is an energy-intensive application that, if implemen...
Control of battery energy storage systems (BESS) for active network management (ANM) should be done ...
Within the context of ancillary services provided to active distribution networks by distributed sto...
This paper presents a centralized control scheme to regulate distribution network voltages in the pr...
The paper presents a network partitioning strategy for the optimal voltage control of Active Distrib...
Large-scale integration of PV generators in distribution grids will impair the voltage stability due...
Typical optimal controls of power systems, such as scheduling of generators, voltage control, losses...
Decentralized generation, distributed energy storage systems and active participation of end-users i...
The core of this activity is to provide distribution system operators with tools for the optimal and...
Due to the increased penetration of Distributed Generations (DGs) in distribution networks, the syst...
In this paper we consider an Active Distribution Network (ADN) that performs primary voltage control...