Open Access
The Impact of Electric Vehicles on The Grid
Abidin Keçeci1*, Bülent Çavuşoğlu2
1Atatürk University, Erzurum, Türkiye
2Atatürk University, Erzurum, Türkiye
* Corresponding author: abidinkececi@gmail.com

Presented at the International Conference on Advances in Electrical-Electronics Engineering and Computer Science (ICEEECS2024), Ankara, Türkiye, Nov 09, 2024

SETSCI Conference Proceedings, 2024, 19, Page (s): 1-6 , https://doi.org/10.36287/setsci.19.1.001

Published Date: 21 November 2024    | 262     0

Abstract

The unlimited nature of consumption and needs contrasts with the scarcity of usable resources, necessitating the optimal use of available resources. Alongside the careful protection of the environment and human health, it is crucial to meet needs with maximum efficiency. With the aid of measuring instruments and sensors added to traditional grids, grids are becoming smart, allowing for rapid resolution of system failures, security issues, losses, and requirements through detection, monitoring, and control. The quick and minimal-error communication between grid elements is of great importance. This paper aims to raise awareness about the economic benefits for the grid and users through a V2G (Vehicle-to-Grid) technology simulation, focusing
on the advantages and disadvantages of using V2G technology, ensuring that the energy needs between the producer and consumer are met promptly and adequately without any system disruption within a smart grid infrastructure aided by 5G communication technology.

Keywords - EV, Electric vehicle, V2G, G2V, 5G

References

[1] The IEA website. [Online]. (2024) Global electric car stock 2013-2023 Available: https://www.iea.org/data-and-statistics/charts/global-electric-car-stock-2013-2023

[2] The IEA website. [Online]. (2024) Electric car sales 2012-2024 Available: https://www.iea.org/data-and-statistics/charts/electric-car-sales-2012-2024

[3] The IEA website. [Online]. (2024)Publicly installed accessible light-duty vehicle charging points by slow chargers and region, 2015-2023 Available:
https://www.iea.org/data-and-statistics/charts/publicly-installed-accessible-light-duty-vehicle-charging-points-by-slow-chargers-and-region-2015-2023

[4] The IEA website. [Online]. (2024) Publicly installed accessible light-duty vehicle charging points by fast chargers and region, 2015-2023 Available: https://www.iea.org/data-and-statistics/charts/publicly-installed-accessible-light-duty-vehicle-charging-points-by-fast-chargers-and-region-2015-2023

[5] The IEA website. [Online]. (2024)Global EV Outlook 2024 Available: https://www.iea.org/reports/global-ev-outlook-2024

[6] W. Kempton and S.E. Letendre “Electric vehicles as a new power source for electric utilities” Transportation Research Part D: Transport and Environment, Pages 157-175, 1997

[7] F. Karapınar “Integration of Electric Vehicles in Smart Grids and V2G Applications From Vehicle to Grid” M. Eng. Thesis. Erciyes University, Kayseri, Turkey 2023

[8] M.A Hassan., E Abdullah., N. H. K. Ali N., N. M. Hidayat, M. Umair and A.Johari “Vehicle-to-grid system optimization for electric vehicle – a review” 6th International Conference on Clean Energy and Technology 2023 (CEAT 2023), Penang, Malaysia, 2023

[9] M. Wan, H. Yu, Y. Huo, K. Yu, Q. Jiang and G. Geng “Feasibility and Challenges for Vehicle-to-Grid in Electricity Market: A Review” Energies 17, no. 3: 679, 2023

[10] Y. Cao “Study on the interaction of vehicle-to-grid and its impact on power quality of electric grid” The 2023 International Conference on Mechatronics and Smart Systems, Oxford, UK, 2023

[11] B. Bibak and H.Tekiner-Mogulkoç “A comprehensive analysis of Vehicle to Grid (V2G) systems and scholarly literature on the application of such systems” Renewable Energy Focus, 2021

[12] A. Alsharif, C.W. Tan, R. Ayop, A. Dobi and K.Y. Lau “A comprehensive review of energy management strategy in Vehicle-to-Grid technology integrated with renewable energy sources” Sustainable Energy Technologies and Assessments, 2021

[13] M. Sarp and N. Altın “Review on Vehicle-to-Grid Systems: The Most Recent Trends and Smart Grid Interaction Technologies” Gazi University Journal of Science, vol.33, no.2, pp.394-411, 2020

[14] B.K.Sovacool, J.Kester, L. Noel and G.Z. Rubens “Actors, business models, and innovation activity systems for vehicle-to-grid (V2G) technology: A comprehensive review” Renewable and Sustainable Energy Reviews, 2020

[15] A.S. Türkoğlu “Optimal Management of Large-Scale V2G in Different Sizes of Distribution System Environments” M. Eng. Thesis. Yıldız Technical University, İstanbul; Turkey, 2023

[16] A.K. Aktar “The Most Economical Use of Vehicle-To-Grid Charging Technology in Electricity Distribution Networks” PhD Thesis. Muğla Sıtkı Koçman University, Turkey, 2023

[17] M. Yavuz “Multi-Agent Reinforcement Learning Base Energy Management With P2P/V2G” M. Eng. Thesis. İstanbul Okan University, İstanbul, Turkey, 2023

[18] K. Şahinkaya “Monte Carlo Based Control Algorithm for Economic Feasibility of V2G Applications” M. Eng. Thesis. Middle East Technical University, Ankara, Turkey, 2019

[19] J. Waldron, L. Rodrigues, S. Deb, M. Gillott and S. Naylor “Exploring Opportunities for Vehicle-to-Grid Implementation through Demonstration Projects”, Energies, 2024

[20] J.Li and A.Li “Optimizing Electric Vehicle Integration with Vehicle-to-Grid Technology: The Influence of Price Difference and Battery Costs on Adoption, Profits, and Green Energy Utilization” Sustainability 16, no. 3: 1118. 2024

[21] M. Umair, N. M. Hidayat, N.H.N. Ali, E. Abdullah, A.R. Johari and T. Hakomori “The effect of vehicle-to-grid integration on power grid stability: A review” 6th International Conference on Clean Energy and Technology 2023 (CEAT 2023), Penang, Malaysia, 2023

[22] Y.R. Rodriguesa, A.C.Z. Souzab and P.F. Ribeiroa “An inclusive methodology for Plug-in electrical vehicle operation with G2V and V2G in smart microgrid environments” International Journal of Electrical Power & Energy Systems Volume 102, P 312-323, 2018

[23] Y. Zheng, Y. Shanga, Z. Shao and L. Jiana “A novel real-time scheduling strategy with near-linear complexity for integrating large-scale electric vehicles into smart grid” Applied Energy Volume 217, p 1-13, 2018

[24] J. Lin, B. Xiao., H. Zhang, X. Yang and P. Zhao “A novel underfill-SOC based charging pricing for electric vehicles in smart grid” Sustainable Energy, Grids and Networks, 2021

[25] R. Yapıcı, D. Güneş and N., Yörükeren “Possible Effects of Electric Charging Stations on the Distribution Network” Chamber of Electrical Engineers, 2017

[26] C. Heilmann and G. Friedl “Factors influencing the economic success of grid-to-vehicle and vehicle-to-grid applications—A review and meta-analysis” Renewable and Sustainable Energy Reviews, 2021

[27] M. Nurmuhammed and T. Karadağ “A Review on Locating the Electric Vehicle Charging Stations and Their Effect on the Energy Network” Gazi University Journal of Science, 2021

[28] S.R. Etesami, W. Saad, N.B. Mandayam and H.V. Poor “Smart routing of electric vehicles for load balancing in smart grids” Automatica 2020

[29] Z. Liao, M. Taiebat and M. Xu “Shared autonomous electric vehicle fleets with vehicle-to-grid capability: Economic viability and environmental co-benefits” Applied Energy, 2021

[30] M. Inci, Ö. Çelik, A. Lashab, K.Ç Bayındır, J.C. Vasquez and J.M. Guerrero J.M. “Power System Integration of Electric Vehicles: A Review on Impacts and Contributions to the Smart Grid” Applied Sciences 14, 2024

[31] A. Srivastava, M. Manas and R.K. Dubey R.K. “Electric vehicle integration’s impacts on power quality in distribution network and associated mitigation measures: a review” Journal of Engineering and Applied Science 70, 2024

[32] F.B. Özkanlı and Z. Demir “Integration of Electric Vehicles Into the Smart Grid” Eskisehir Technical University Science and Technology Journal, 2021

[33] I. Pavić, H. Pandžić and T. Capuder “Electric vehicle based smart e-mobility system – Definition and comparison to the existing concept” Applied Energy, 2020

[34] H.F. Feshki Farahani “Improving voltage unbalance of low voltage distribution networks using plug-in electric vehicles” Journal of Cleaner Production V. 148 p. 336-346, 2017

[35] K. Zagrajek, M. Kłos, D.D. Rasolomampionona, M. Lewandowski and K. Pawlak “The Novel Approach of Using Electric Vehicles as a Resource to Mitigate the Negative Effects of Power Rationing on Non-Residential Buildings” Energies 17, 2024

[36] S. Adak, H. Cangi, R. Kaya and A.S. Yilmaz “Effects of Electric Vehicles and Charging Stations on Microgrid Power Quality”, Gazi University Journal of Science, 2022

[37] E. Arıkan “Channel polarization: A method for constructing capacity-achieving codes for symmetric binary-input memoryless channels” IEEE Transactions on Information Theory vol. 55, no. 7, pp. 3051-3073, 2009

[38] The EPİAŞ website. [Online]. (2024)GIP Weighted Average Price Available:https://seffaflik.epias.com.tr/electricity/electricity-markets/intraday-market-idm/idm-weighted-average-price


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