Add to ORKGMaintaining voltage levels in low voltage (LV) distribution network within the standard limits is the main constraining factor in increasing network hosting ability for high penetration of rooftop photovoltaic (PV). Distribution system operator must be able to take corrective approach to avoid critical voltage unbalance and magnitude violations where rooftop PV generation is high. This study presents an effective method for voltage management in distribution networks through implementation of optimal residential demand response (DR) and transformer tap setting using a particle swarm optimization algorithm. The method is comprehensively verified on a real Australian distribution network with considerable unbalance and distributed generations...
This project is a step forward in developing effective methods to mitigate voltage unbalance in urba...
The large penetration of solar photovoltaic (PV) systems at low voltage (LV) networks has started to...
The rapid uptake of residential photovoltaic (PV); systems is causing serious power quality issues s...
Voltage unbalance and magnitude violations under normal operating conditions have become main power ...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Wolfs, PJ ORCiD: 0000-0001-7048-1231Low-voltage (LV) feeder voltage magnitude and unbalance are ofte...
The voltage regulation in distribution networks is one of the major obstacles when increasing the pe...
The rapid expansion of consumer-driven installations of residential photovoltaic (PV) systems causes...
The rapid expansion of consumer-driven installations of residential photovoltaic (PV) systems causes...
Wolfs, PJ ORCiD: 0000-0001-7048-1231The rapid expansion of consumer-driven installations of resident...
This project is a step forward in developing effective methods to mitigate voltage unbalance in urba...
This project is a step forward in developing effective methods to mitigate voltage unbalance in urba...
The large penetration of solar photovoltaic (PV) systems at low voltage (LV) networks has started to...
The rapid uptake of residential photovoltaic (PV); systems is causing serious power quality issues s...
Voltage unbalance and magnitude violations under normal operating conditions have become main power ...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Low voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Wolfs, PJ ORCiD: 0000-0001-7048-1231Low-voltage (LV) feeder voltage magnitude and unbalance are ofte...
The voltage regulation in distribution networks is one of the major obstacles when increasing the pe...
The rapid expansion of consumer-driven installations of residential photovoltaic (PV) systems causes...
The rapid expansion of consumer-driven installations of residential photovoltaic (PV) systems causes...
Wolfs, PJ ORCiD: 0000-0001-7048-1231The rapid expansion of consumer-driven installations of resident...
This project is a step forward in developing effective methods to mitigate voltage unbalance in urba...
This project is a step forward in developing effective methods to mitigate voltage unbalance in urba...
The large penetration of solar photovoltaic (PV) systems at low voltage (LV) networks has started to...
The rapid uptake of residential photovoltaic (PV); systems is causing serious power quality issues s...