This paper proposes a decentralised control strategy using droop-based control to generate a charging schedule for electric vehicles (EV). This strategy aims to mitigate voltage rise caused by rooftop photovoltaic (PV) systems and phase unbalance caused by unbalance loads in a low-voltage distribution (LV) network. The strategy also smooths the voltage profile of the network and reduces variation between the maximum and minimum voltages. A modified IEEE 13 node test feeder with an LV network based on a semi-rural Australian town was used to show the impacts of PV and EV charging in the network and verify the proposed strategy
The increasing penetration of EVs on LV Distribution networks can potentially cause voltage quality...
© 2020 IEEE. Due to the economic and environmental benefits, it is envisaged that many residential c...
Penetration of distributed renewable energy sources in low-voltage (LV) networks is increasing stead...
Voltage drop at network peak hours is a significant power quality problem in Low Voltage (LV) distri...
Voltage drop at network peak hours is a significant power quality problem in Low Voltage (LV) distri...
If left uncontrolled, electric vehicle charging poses severe challenges to distribution grid operati...
If left uncontrolled, electric vehicle charging poses severe challenges to distribution grid operati...
Three new algorithms are proposed to regulate network voltages and reduce voltage unbalance factor o...
Due to random connection of small-size single-phase rooftop photovoltaic (PV) generators in resident...
International audienceThis paper investigates a decentralized optimization methodology to coordinate...
This paper introduces an adaptive sequential droop control strategy for PV inverters to mitigate vol...
© 2019 IEEE. Coordinating electric vehicle (EV) charging offers several possible solutions, e.g., ch...
Australia and most other countries are adopting renewable energy generation as the dominant means of...
Installation of single-phase rooftop Photovoltaic (PV) systems in low voltage distribution networks ...
Overvoltages in low voltage distribution grids with high solar photovoltaic (PV) integration are usu...
The increasing penetration of EVs on LV Distribution networks can potentially cause voltage quality...
© 2020 IEEE. Due to the economic and environmental benefits, it is envisaged that many residential c...
Penetration of distributed renewable energy sources in low-voltage (LV) networks is increasing stead...
Voltage drop at network peak hours is a significant power quality problem in Low Voltage (LV) distri...
Voltage drop at network peak hours is a significant power quality problem in Low Voltage (LV) distri...
If left uncontrolled, electric vehicle charging poses severe challenges to distribution grid operati...
If left uncontrolled, electric vehicle charging poses severe challenges to distribution grid operati...
Three new algorithms are proposed to regulate network voltages and reduce voltage unbalance factor o...
Due to random connection of small-size single-phase rooftop photovoltaic (PV) generators in resident...
International audienceThis paper investigates a decentralized optimization methodology to coordinate...
This paper introduces an adaptive sequential droop control strategy for PV inverters to mitigate vol...
© 2019 IEEE. Coordinating electric vehicle (EV) charging offers several possible solutions, e.g., ch...
Australia and most other countries are adopting renewable energy generation as the dominant means of...
Installation of single-phase rooftop Photovoltaic (PV) systems in low voltage distribution networks ...
Overvoltages in low voltage distribution grids with high solar photovoltaic (PV) integration are usu...
The increasing penetration of EVs on LV Distribution networks can potentially cause voltage quality...
© 2020 IEEE. Due to the economic and environmental benefits, it is envisaged that many residential c...
Penetration of distributed renewable energy sources in low-voltage (LV) networks is increasing stead...