Optimization Method of Charging Station Layout Based on Internet of Things Under the Background of Sustainable Development

Authors

  • Yingjun He Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China
  • Shenzhang Li Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China
  • Hexiong Chen Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China
  • Xiu Liu Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China
  • Lin Wang Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China
  • Shaolong Li Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China

DOI:

https://doi.org/10.13052/dgaej2156-3306.3849

Keywords:

Sustainable development, internet of things, charging station, layout optimization, RFID system, genetic algorithm

Abstract

In the context of sustainable development, the research on the optimization method of charging station layout based on the Internet of things can effectively shorten the distance between the charging demand point and the charging station candidate point. Based on the perception of the charging status of the electric station and the transmission layer of the RFID, the charging system is designed to collect and store the relevant information from the charging system of the electric station in real time according to the charging status of the electric station and the transmission layer of the RFID. Based on the above information, taking the minimum distance from the user to the charging station, the expected waiting time and the construction cost as the objective function, all demand points are allocated to the corresponding charging station, charging can be provided to users only by building a charging station at the candidate point, and users at all demand points can only enjoy charging services at a specific charging station as the constraint. The optimization model of charging station layout is constructed and solved by genetic algorithm to obtain the best charging station layout. The experimental results show that the layout scale of electric vehicle charging stations based on this method has the advantages of global optimization, strongest adaptability and good economic benefits, and the increase in the number of charging stations can effectively improve user satisfaction.

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Author Biographies

Yingjun He, Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China

Yingjun He was born in Dali, Yunnan Province in China in 1987. He holds a bachelor’s degree from Yunnan Agricultural University. He is currently working in the information center of Yunnan Power Grid Co., Ltd., engaged in information construction and management, mainly researching digital power grid monitoring and operation.

Shenzhang Li, Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China

Shenzhang Li was born in Baoshan of Yunnan Province in China in 1985. Now he is working in the information center of Yunnan Power Grid Co., Ltd., mainly engaged in the digital application of cloud computing and big data technology in power grid, proficient in power grid GIS business and technology. And he has a clear understanding of the future construction direction of GIS And grasp, being good at software analysis and design.

Hexiong Chen, Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China

Hexiong Chen was born in Qujing of Yunnan Province in China in 1984. He has hold the Master degree from Kunming University of Science and Technology. He works in Information Center of Yunnan Power Grid Co., Ltd. Mainly engaged in network and network security research.

Xiu Liu, Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China

Xiu Liu was born in Neijiang of Sichuan Province in China in 1987. She got the bachelor degree from Yunnan University. Now, she is working in the Information Center of Yunnan Power Grid Co., Ltd. Mainly engaged in IT operation and maintenance and service related content.

Lin Wang, Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China

Lin Wang was born in 1985 in Chuxiong of Yunnan Province in China. He holds a bachelor’s degree from Yunnan Normal University and is now working in the Information Center of Yunnan Power Grid Co., Ltd. He Mainly engaged in IT operation and maintenance and service related content.

Shaolong Li, Information Center of Yunnan Power Grid Co., Ltd. Kuming 650000, Yunan, China

Shaolong Li was born in Fengqing of Lincang, Yunnan in China in 1983. He holds a bachelor’s degree from Yunnan University of Finance and Economics. He works in the information center of Yunnan Power Grid Co., Ltd., mainly engaged in IT operation and maintenance now.

References

Zheng, X. Q. Yao, Y. P. Multi-objective capacity allocation optimization method of photovoltaic EV charging station considering V2G[J]. Journal of Central South University, 2021, 28(2):481–493.

Zhang, Y., Zhang, Q., Farnoosh, A., Chen, S. Li Y. GIS-Based Multi-Objective Particle Swarm Optimization of charging stations for electric vehicles[J]. Energy, 2019, 169(FEB.15):844–853.

Gao, Q. F., Tao, Y. Z., Wei, Y. F., Wu, C. Dong, L. Y. Simulation-based optimization of inner layout of a theater considering the effect of pedestrians[J]. Chinese Physics B, 2020, 29(03):336–342.

Zeng, B., Dong, H., Sioshansi, R., Xu, F. Zeng, M. Bilevel Robust Optimization of Electric Vehicle Charging Stations With Distributed Energy Resources[J]. IEEE Transactions on Industry Applications, 2020, PP(99):1–1.

Wu, X., Feng, Q., Bai, C., Lai, S. C. Lai, L. L. A novel fast-charging stations locational planning model for electric bus transit system[J]. Energy, 2021, 224(1):120106.

Tlili, I., Sajadi, S.M., Baleanu, D. and Ghaemi, F. Flat sheet direct contact membrane distillation study to decrease the energy demand for solar desalination purposes[J]. Sustainable Energy Technologies and Assessments, 2022, 52:102100.

Deb, S., Tammi, K., Kalita, K. Mahanta, P. Charging Station Placement for Electric Vehicles: a Case Study of Guwahati city, India[J]. IEEE Access, 2019, 7(99):100270–100282.

Chen, Z., Wang, W. X., Li, Z. Q., Zhang, Y. G., Sun, Z. Sun, X. K. Optimization of charging pile layout based on multi-factor constrained P-median model. Beijing Jiaotong University, 2021, 45(3):93–99.

Hu, J. G. Qi, F. Research on layout optimization of energy storage tram charging stations [J]. Urban rail transit research, 2020, 23(5):15–18, 22.

Gao, J., Liu, J., Yue, H., Zhao, Y., Tlili, I. and Karimipour, A. Effects of various temperature and pressure initial conditions to predict the thermal conductivity and phase alteration duration of water-based carbon hybrid nanofluids via MD approach[J]. Journal of Molecular Liquids, 2022, 351:118654.

Luo, Y., Feng, G., Wan, S., Zhang, S., Li, V. Kong, W. Charging scheduling strategy for different electric vehicles with optimization for convenience of drivers, performance of transport system and distribution network[J]. Energy, 2020, 194(Mar.1):116807.1–116807.13.

Deb, S., Tammi, K., Kalita, K. Mahanta, P. Charging Station Placement for Electric Vehicles: a Case Study of Guwahati city, India[J]. IEEE Access, 2019, 7(99):100270–100282.

He, Y. W., Dong, P. W. Chen, X. Research on layout decision of electric vehicle quick charging station based on road network [J]. Operations research and management research, 2020, 29(5):125–134.

Ramadan, K.M., Qisieh, O. and Tlili, I. Thermal creep effects on fluid flow and heat transfer in a microchannel gas cooling[C]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2022, 236(9):5033–5047.

Yuan, T. j., Yang, N., Zhang, Y., Che, Y. LI, A. K. Optimization of Pre-installed Energy storage Power Station Layout based on Surrogate [J]. High Voltage Technology, 201, 47(4):1314–1322.

Chen, M. Q. Li, J. L. Charging Coordination Method of Distributed Charging Piles Based on Local Voltage Amplitude and Cloud Edge Coordination [J]. Electric power construction, 2020, 41(6):60–68.

Qian, K. J., Qin, M., Song, Y. J., Zhou, Z. K., Liu, Y., Xie, Y. Chen, L. J. Multi-objective optimal scheduling of charging station based on fuzzy membership degree [J]. Electric power construction, 2020, 41(2): 118–124.

Cao, J. J., Wang, C., Huo, C. H., Luo, C. Y., Tao, D. C. Wu, X. X. Optimization planning of charging station considering load fluctuation and voltage Offset in distribution network [J]. Journal of Electric Power Science and Technology, 2021, 36(4):12–19.

Cheng, S., Yang, K., Wang, Y. Q., Yan, X. Wei, Z. B. Interval optimization scheduling of electric vehicle charging stations including wind power generation [J]. Electric Machines and Control, 2021, 25(6): 101–109.

Feng, C. Ye, L. Simulation of location model of electric vehicle charging station based on two-level programming. Computer Simulation, 2019, 36(8):6.

Yang, N., Yuan, T. J., Zhang, Y. Zhang, L. Structural Layout Optimization of Pre-installed Hydrogen storage Power Station Based on Surrogate Optimization Modeling method [J]. Transactions of China Electrotechnical Society, 2021, 36(3):473–485.

Liu, Q. H., Zhang, Y. B., Wei, J. F., Hong, C. W., Pang, F. Zhou, Q. Electric power automation equipment, 2019, 39(6):122–129, 152.

Sun, Y., Jiang, C., Wang, Z. H. Tang, C. S. Optimization layout of dynamic wireless power supply system for electric vehicles based on PSGA [J]. Automation of electric power systems, 2019, 43(9):125–131.

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Published

2023-05-18

How to Cite

He, Y. ., Li, S. ., Chen, H. ., Liu, X. ., Wang, L. ., & Li, S. . (2023). Optimization Method of Charging Station Layout Based on Internet of Things Under the Background of Sustainable Development. Distributed Generation &Amp; Alternative Energy Journal, 38(04), 1279–1306. https://doi.org/10.13052/dgaej2156-3306.3849

Issue

2023: Vol 38 Iss 4

Section

Articles