Yu Lao Han
ABSTRACT
In order to ensure the load balance of the charging network and promote the large-scale application of electric vehicles., how to balance the benefits of both charging stations and electric vehicle users has become an urgent problem. A charging model considering the benefits of charging stations and electric vehicles users is established, and a charging scheme for electric vehicles is proposed. The simulation results show that, compared with the traditional random charging scheme, the proposed scheme can significantly increase the benefits of charging stations and lower the charging costs, balances the benefits of both electric vehicles users and charging stations well and achieves a win-win goal for both.
- Hemavathi S, Shinisha A. A study on trends and developments in electric vehicle charging technologies[J]. Journal of energy storage, 2022, 52: 105013.Google Scholar
- A. Y. Saber. Plug-in vehicles and renewable energy sources for cost and emission reductions[J]. IEEE Transactions on Industrial Electronics, vol. 58, no. 4, pp. 1229-1238, Apr.2011.Google ScholarCross Ref
- oel S, Sharma R, Rathore A K. A review on barrier and challenges of electric vehicle in India and vehicle to grid optimisation[J]. Transportation engineering, 2021, 4: 100057.Google Scholar
- Kucevic D, Englberger S, Sharma A, Reducing grid peak load through the coordinated control of battery energy storage systems located at electric vehicle charging parks[J]. Applied energy, 2021, 295: 116936.Google ScholarCross Ref
- Lucas A, Bonavitacola F, Kotsakis E, Grid harmonic impact of multiple electric vehicle fast charging[J]. Electric Power Systems Research, 2015, 127: 13-21Google ScholarCross Ref
- Hu J,Yang G,Bindner H.W, Xue Y. Application of Network-Constrained Transactive Control to Electric Vehicle Charging for Secure Grid Operation[J]. IEEE Trans. Sustain. Energy, 2019,8:505–515.Google ScholarCross Ref
- Ma Z, Callaway D, Hiskens I. Decentralized charging control for large populations of plug-in electric vehicles[C]. Atlanta, GA, USA, 15–17 December 2010:206–212.Google Scholar
- Rebecca S. Widrick, Sarah G. Nurre, Matthew J. Robbins (2018) Optimal Policies for the Management of an Electric Vehicle Battery Swap Station[J]. Transportation Science 52(1):59-79.Google Scholar
- Chathurika P M, David B S. Game-Theoretic Electric Vehicle Charging Management Resilient to Non-Ideal User Behavior[J]. IEEE Transactions on Intelligent Transportation Systems,2020,19(11): 3486-3495.Google Scholar
- DeForest N,Funk J,Lorimer A. Impact of widespread electric vehicle adoption on the electrical utility business: threats and opportunities[EB/OL].2009-08-31.Google Scholar
- YEONGJIN K, JEONGHO K, SONG C. Dynamic pricing, scheduling, and energy management for profit maximization in PHEV charging stations [J]. IEEE transactions on vehicular technology,2017,66(2):1011-1026Google Scholar
- Meng W, Kai L. Optimization of electric vehicle charging station location based on game theory[C]//Proceedings 2011 International Conference on Transportation, Mechanical, and Electrical Engineering (TMEE). IEEE, 2011: 809-812.Google Scholar
- Z. Ma, D. Callaway, and I. Hiskens, “Decentralized charging control for large populations of plug-in electric vehicles,” in Proc. IEEE Int. Conf. Control Appl., 2010, pp. 191–195.Google ScholarCross Ref
- S. Han, S. Han, and K. Sezaki, “Development of an optimal vehicle-togrid aggregator for frequency regulation,” IEEE Trans. Smart Grid, vol. 1, no. 1, pp. 65–72, Jun. 2010.Google ScholarCross Ref
- Staats P T, Grady W M, Arapostathis A. A statistical method forpredicting the net harmonic currents generated by a concentration of electric vehicle battery chargers[J]. IEEE Transs on Power Delivery,1997,12(3):1258-1266.Google Scholar
- Zhang Wenliang, Wu Bin, Li Wufeng Discussion on development trend of battery electric vehicles in china and its energy supply mode[J]. Power Supply Technology, 200933(4): 1-5.Google Scholar
- ILOG Software Inc., CPLEX 10.1. [Online]. Available: http://www.ilog.com.Google Scholar
Index Terms
- Research on Charging Strategy of Electric Vehicles Considering Bilateral Benefits
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