This paper deals with the optimal sizing and power flow control for grid-connected multi-source power converter system for EV charging infrastructure with integrated energy storage system. The sizing of the power conversion system is based on cost-benefit analysis which takes into account several factors to define the e-mobility scenario and different topologies of power conversion units. The proposed solution allows minimizing the impact of EV charging processes on the electric grid as well as their cost by means of suitable use of a renewable source and an energy storage system.
Multi-source power converter system for EV charging station with integrated ESS / Abronzini, U.; Attaianese, C.; D'Arpino, M.; Di Monaco, M.; Genovese, A.; Pede, G.; Tomasso, G.. - (2015), pp. 427-432. (Intervento presentato al convegno 1st International Forum on Research and Technologies for Society and Industry Leveraging a better tomorrow (RTSI), IEEE tenutosi a Torino nel 16-18 September 2015) [10.1109/RTSI.2015.7325135].
Multi-source power converter system for EV charging station with integrated ESS
Attaianese C.
;
2015
Abstract
This paper deals with the optimal sizing and power flow control for grid-connected multi-source power converter system for EV charging infrastructure with integrated energy storage system. The sizing of the power conversion system is based on cost-benefit analysis which takes into account several factors to define the e-mobility scenario and different topologies of power conversion units. The proposed solution allows minimizing the impact of EV charging processes on the electric grid as well as their cost by means of suitable use of a renewable source and an energy storage system.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
