Electric vehicles can be better integrated in power system through smart charging processes and interaction with local production sources. To this purpose, modular multi-source infrastructures should be developed, exploiting fast charge and vehicle-to-grid technology. In this paper, proper configurations for electric vehicle supply infrastructure, based on AC or DC microgrid, are analyzed by means of optimal sizing procedure and system reliability assessment according to Markov process, block diagrams and supply priority methods.
AC and DC Solutions for Electric Vehicle Microgrid: Sizing and Reliability Analysis / Aluisio, B.; Dicorato, M.; Ferrini, Imma; Forte, G.; Trovato, M.. - ELETTRONICO. - (2018). ( IEEE International Conference on Environment and Electrical Engineering, EEEIC / IEEE Industrial and Commercial Power Systems Europe, I&CPS Europe Palermo, Italy June 12-15, 2018) [10.1109/EEEIC.2018.8494356].
AC and DC Solutions for Electric Vehicle Microgrid: Sizing and Reliability Analysis
Aluisio, B.;Dicorato, M.;Ferrini, Imma;Forte, G.;Trovato, M.
2018
Abstract
Electric vehicles can be better integrated in power system through smart charging processes and interaction with local production sources. To this purpose, modular multi-source infrastructures should be developed, exploiting fast charge and vehicle-to-grid technology. In this paper, proper configurations for electric vehicle supply infrastructure, based on AC or DC microgrid, are analyzed by means of optimal sizing procedure and system reliability assessment according to Markov process, block diagrams and supply priority methods.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
