Abstract:
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[EN] The secure integration of electric vehicle (EV) plays a key role in the energy transition through a resilient and decarbonised economy. However, a massive EV penetration means a rise in electricity demand with negative ...[+]
[EN] The secure integration of electric vehicle (EV) plays a key role in the energy transition through a resilient and decarbonised economy. However, a massive EV penetration means a rise in electricity demand with negative consequences to the distribution systems (voltage drops, branches congestion, etc) if the charging infrastructure is not cybersecure and does not perform smart charging mechanisms. Furthermore, these new infrastructures and their operating procedures provide new chances to cyberattacks to be performed, aimed at either exploiting those grid vulnerabilities or acquiring some user's private information.
Therefore, to ease the secure integration of EV charging infrastructures in the future network, this paper presents a three-level actuation methodology for charging infrastructures, which includes active management of EV supply equipment (EVSE) to allow dynamic control of charges, installation of ancillary protection systems, planning of EVSE's location within the distribution system and cybersecure management of the whole infrastructure. The presented methodology is based on a thorough analysis of the possible cyberattacks that may occur during the transactions of the charging process, as well as tests carried out on a real pilot, which demonstrate the possible impacts that an uncontrolled charging of the EV can have on the distribution network, thus identifying the vulnerabilities of the distribution network.
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Thanks:
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The preparation of this article has been carried out within the framework of HySGrid+, a Spanish network of Centers of Excellence
under the title "Development of energy-positive local communities with hybrid renewable ...[+]
The preparation of this article has been carried out within the framework of HySGrid+, a Spanish network of Centers of Excellence
under the title "Development of energy-positive local communities with hybrid renewable generation and storage systems". HySGrid+
is funded by the Ministry of Science, Innovation and Universities through the CDTI agency, under the Cervera program "CER20191019". The authors of this article also thank the contribution of the "Instituto Valenciano de Competitividad Empresarial
(IVACE)" and the European Regional Development Fund (ERDF) for making possible the development of this project, allowing the "Instituto Tecnológico de la Energía (ITE)" to disseminate the results of the research carried out and facilitating and promoting the
transfer of knowledge to companies in the Valencian Community.
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