Fleksibilnost elektroenergetskog sistema / Zbornik CIGRE (2023). (str 2162-2169)
AUTOR(I) / AUTHOR(S): Slavica Boštjančič Rakas, Valentina Timčenko
E-ADRESA / E-MAIL: bostjancic@pupin.rs
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DOI: 10.46793/CIGRE36.2162BR
SAŽETAK / ABSTRACT:
Zaštita životne sredine i energetska efikasnost su danas vrlo aktuelne istraživačke teme naučne zajednice. Elektrifikacija transporta, kao jednog od glavnih zagađivača, može da pomogne u rešavanju ovog problema. Osim toga, integracija električnih vozila i elektroenergetskog (EE) sistema odnosno uvođenje V2G (Vehicle-to-Grid) sistema donosi brojne benefite i samoj EE mreži kao i vlasnicima vozila. U ovom radu je razmatran uticaj i prednosti integracije električnih vozila na EE mrežu kroz koncept V2G sistema. Predstavljena je komunikaciona arhitektura V2G sistema sa kratkim osvrtom na aspekte sajber bezbednosti ovakvog sistema.
KLJUČNE REČI / KEYWORDS:
električna vozila, vehicle-to-grid, obnovljivi izvori energije, smart grid
LITERATURA / REFERENCES:
N. Moghadasi, Z. A. Collier, A. Koch, D. L. Slutzky, T. L. Polmateer, M. C. Manasco, J. H. Lambert, „Trust and security of electric vehicle-to-grid systems and hardware supply chains“, Reliability Engineering and System Safety, 2022, Vol. 225, Article No. 108565.
M. Longo, F. Foiadelli, W. Yaïci, „Electric Vehicles Integrated with Renewable Energy Sources for Sustainable Mobility“, In New Trends in Electrical Vehicle Powertrains, (L. R. Martinez, M. D. Prieto, Eds), 2019, IntechOpen.
A. Tavakoli, S. Saha, M. T. Arif, M. E. Haque, N. Mendis, A. M.T. Oo, „Impacts of grid integration of solar PV and electric vehicle on grid stability, power quality and energy economics: a review“, IET Energy Systems Integration, Vol. 2, No. 3, September 2020, pp. 243–260.
H. Yu, S. Niu, Y. Shang, Z. Shao, Y. Jia, L. Jian, „Electric vehicles integration and vehicle-to-grid operation in active distribution grids: A comprehensive review on power architectures, grid connection standards and typical application“, Renewable and Sustainable Energy Reviews, Vol. 168, 2022, Article No. 112812.
C. Xu, P. Behrens, P. Gasper, K. Smith, M. Hu, A. Tukker, B. Steubing, „Electric vehicle batteries alone could satisfy short-term grid storage demand by as early as 2030“, Nature Communication, 2023, Vol. 4, Article No. 119.
B. Bibak, H. Tekiner-Mogulkoç, „A comprehensive analysis of Vehicle to Grid (V2G) systems and scholarly literature on the application of such systems“, Renewable Energy Focus, Vol. 36, March 2021, pp. 1–20.
M. Ouaissa, M. Ouaissa, M. Houmer, “Vehicle-to-Grid Security in Smart Grid: An Overview”, Proceedings of the Advances in Communication Technology, Computing and Engineering, 2021, pp. 282–294.
A. D. Ostojić, M. P. Ćalasan, S. V. Mujović, „Implementacija V2G sistema u cilju poboljšanja karakteristike opterećenja energetskog sistema korišćenjem PSO algoritma“, Tehnika-Elektrotehnika, vol. 68, 2019, str. 841–846.
S. S. Ravi, M. Aziz, “Utilization of Electric Vehicles for Vehicle-to-Grid Services: Progress and Perspectives“, Energies 2022, Vol. 15, Article No. 589.
C. Peng, J. Zou, L. Lian, L. Li, “An optimal dispatching strategy for V2G aggregator participating in supplementary frequency regulation considering EV driving demand and aggregator’s benefits”, Applied Energy, Vol.190, March 2017, pp. 591–599.
T. Sommestad, G. N. Ericsson, J. Nordlander, „SCADA System Cyber Security: A Comparison of Standards“, IEEE Power and Energy Society General Meeting, 2010, str. 1-8.
N. Saxena, S. Grijalva, V. Chukwuka, A. V. Vasilakos, “Network Security aNd Privacy challeNgeS iN Smart vehicle-to-grid”, IEEE Wireless Communications, Vol. 24, No. 4, 2017, pp. 88–98.