Low voltage distribution networks are characterized by an ever growing diffusion of single and three phase distributed generators whose unregulated operation may deplete the power quality level. It is thus of interest to investigate how such active elements could be managed in order to optimize the system operation in a smart grid scenario. In this paper local control strategies of single-phase and three-phase inverter-interfaced generation units for voltage magnitude regulation and current unbalance compensation respectively are presented. Simulation results show the positive effects that this type of distributed compensation may have on the power quality of low voltage distribution systems
This paper proposes a novel reactive power-based control strategy for single-phase PV inverters (PVI...
This paper proposes a technique for the power flow control of three-phase four-wire low-voltage powe...
Voltage regulation is a crucial practice in distribution networks to ensure that the steady state vo...
Low voltage distribution networks are characterized by an ever growing diffusion of single and three...
tLow voltage distribution networks are characterized by an ever growing diffusion of single and thre...
The growing diffusion of single-phase distributed generators in LV distribution networks, already s...
In the past, distribution networks were designed to be operated as a passive system, i.e. without Di...
In low-voltage distribution networks a large amount of single-phase nonlinear loads are connected. T...
©2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In three-phase Low Voltage (LV) networks, distributed photovoltaic (PV) units can contribute to volt...
Considering the high penetration of distributed generators in low-voltage grids, establishing a coor...
The increasing presence of single-phase distributed generators and unbalanced loads in the electric ...
Youcef Bot, Ahmed Allali, Mouloud Denai, ‘Distribution Network Voltage Unbalance Control under High ...
The rapid development of renewable energy sources and electricity storage technologies is further dr...
The increasing penetration of distributed energy resources in Low Voltage Distribution Grids (LVDGs)...
This paper proposes a novel reactive power-based control strategy for single-phase PV inverters (PVI...
This paper proposes a technique for the power flow control of three-phase four-wire low-voltage powe...
Voltage regulation is a crucial practice in distribution networks to ensure that the steady state vo...
Low voltage distribution networks are characterized by an ever growing diffusion of single and three...
tLow voltage distribution networks are characterized by an ever growing diffusion of single and thre...
The growing diffusion of single-phase distributed generators in LV distribution networks, already s...
In the past, distribution networks were designed to be operated as a passive system, i.e. without Di...
In low-voltage distribution networks a large amount of single-phase nonlinear loads are connected. T...
©2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In three-phase Low Voltage (LV) networks, distributed photovoltaic (PV) units can contribute to volt...
Considering the high penetration of distributed generators in low-voltage grids, establishing a coor...
The increasing presence of single-phase distributed generators and unbalanced loads in the electric ...
Youcef Bot, Ahmed Allali, Mouloud Denai, ‘Distribution Network Voltage Unbalance Control under High ...
The rapid development of renewable energy sources and electricity storage technologies is further dr...
The increasing penetration of distributed energy resources in Low Voltage Distribution Grids (LVDGs)...
This paper proposes a novel reactive power-based control strategy for single-phase PV inverters (PVI...
This paper proposes a technique for the power flow control of three-phase four-wire low-voltage powe...
Voltage regulation is a crucial practice in distribution networks to ensure that the steady state vo...