© 2018 IEEE. Overvoltage is one of the major issues on distribution grids with high penetration of photovoltaic (PV) generation. Overvoltage could be prevented through the control of active/reactive power of PVs. However, given the high R/X ratio of low voltage feeders, voltage control by using reactive power would not be as effective as using active power. Therefore, active power curtailment (APC) of PVs, though not desirable, becomes necessary at times to prevent the overvoltage issues. Existing literature is rich in centralized and droop-based methods for APC and/or reactive power control of PVs to prevent overvoltage issues. In this context, this paper revisits the most popular existing methods, and evaluates the performance of droop-ba...
The curtailment of photovoltaic (PV) power injection is one of the ways to mitigate the overvoltage ...
Due to random connection of small-size single-phase rooftop photovoltaic (PV) generators in resident...
As non-controllable power sources, photovoltaics can create overvoltage and overloading in low volta...
Overvoltages in low voltage (LV) feeders with high penetration of photovoltaics (PV) are usually pre...
Recent developments in the renewable energy sector have seen an unprecedented growth in residential ...
As non-controllable power sources, photovoltaics (PV) can create overvoltage in low voltage (LV) dis...
The increasing installation of photovoltaic panels in low-voltage grids causes an over voltage probl...
The rapid increase in the number of PV installations in current low voltage (LV) distribution networ...
The increased penetration of renewable distributed energy sources increases the challenges for distr...
With increasing photovoltaic (PV) penetration in low voltage networks (LVNs), voltage regulation is ...
The proliferation of PV generation systems connected to electrical distribution systems (EDSs) bring...
Penetration of distributed renewable energy sources in low-voltage (LV) networks is increasing stead...
Overvoltage problems are emerging as prominent issues all over Europe in low-voltage (LV) networks a...
The curtailment of photovoltaic (PV) power injection is one of the ways to mitigate the overvoltage ...
Due to random connection of small-size single-phase rooftop photovoltaic (PV) generators in resident...
As non-controllable power sources, photovoltaics can create overvoltage and overloading in low volta...
Overvoltages in low voltage (LV) feeders with high penetration of photovoltaics (PV) are usually pre...
Recent developments in the renewable energy sector have seen an unprecedented growth in residential ...
As non-controllable power sources, photovoltaics (PV) can create overvoltage in low voltage (LV) dis...
The increasing installation of photovoltaic panels in low-voltage grids causes an over voltage probl...
The rapid increase in the number of PV installations in current low voltage (LV) distribution networ...
The increased penetration of renewable distributed energy sources increases the challenges for distr...
With increasing photovoltaic (PV) penetration in low voltage networks (LVNs), voltage regulation is ...
The proliferation of PV generation systems connected to electrical distribution systems (EDSs) bring...
Penetration of distributed renewable energy sources in low-voltage (LV) networks is increasing stead...
Overvoltage problems are emerging as prominent issues all over Europe in low-voltage (LV) networks a...
The curtailment of photovoltaic (PV) power injection is one of the ways to mitigate the overvoltage ...
Due to random connection of small-size single-phase rooftop photovoltaic (PV) generators in resident...
As non-controllable power sources, photovoltaics can create overvoltage and overloading in low volta...