Title :
Multiagent Charging of Electric Vehicles Respecting Distribution Transformer Loading and Voltage Limits
Author :
Weckx, Sam ; D´Hulst, Reinhilde ; Claessens, Bert ; Driesensam, Johan
Author_Institution :
Dept. of Electr. Eng., Katholieke Univ. Leuven, Leuven, Belgium
Abstract :
In this paper, a market based multiagent control mechanism that incorporates distribution transformer and voltage constraints for the charging of a fleet of electric vehicles (EVs) is presented. The algorithm solves a utility maximization problem in a distributed way, assigning most charging power to the EVs with the highest need for energy. The algorithm does not rely on an iterative exchange of messages, but finds the optimal solution after the exchange of just one single message. A substation agent is responsible for guaranteeing a safe network operation. It uses the remaining capacity of each of the EV chargers for reactive voltage control. The performance of the algorithm is evaluated on an existing three-phase four-wire distribution grid. Simulation results show that the fleet of EVs can be charged at a minimal increase of costs, without jeopardizing the network.
Keywords :
distribution networks; electric vehicles; multi-agent systems; power grids; power markets; reactive power control; voltage control; EV chargers; distribution transformer loading limits; distribution transformer voltage limits; electric vehicles; iterative message exchange; market based multiagent control mechanism; maximization problem; multiagent charging; reactive voltage control; substation agent; three-phase four-wire distribution grid; Algorithm design and analysis; Electric vehicles; Multi-agent systems; Optimization; Reactive power control; Voltage control; Voltage measurement; Distributed optimization; distribution network; electric vehicle (EV); multiagent system; power curtailment; reactive power control; voltage control; voltage control.;
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2014.2345886
