Research on Problems and Countermeasures of Charging Pile Construction
DOI:
https://doi.org/10.54097/pb0x1n25Keywords:
Government Subsidies, Charging Station Construction, Coping StrategiesAbstract
Electric vehicles can effectively reduce carbon emissions in the transportation sector, making them a globally promoted mode of transport. With the rise and widespread application of electric vehicles, charging stations have become essential supporting infrastructure for electric vehicles. Electric vehicle manufacturers and charging station operators are investing in the construction of charging stations, and many countries have implemented various subsidy policies for charging station construction, which also places higher demands on the development of charging stations. This article briefly introduces the issues facing charging station construction and coping strategies against the backdrop of achieving carbon neutrality goals, providing references for promoting the development of charging stations.
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[1] 2023.U.S. Announces $2.5 Billion for Electric Vehicle Charging Stations, Alternative Fuel Vehicle Supply Stations. CNN. URL: https://interview.chinanews.com/gj/2023/03-15/9971694.shtml
[2] State Grid. 2020.State Grid Comprehensive Construction of New Energy Vehicle Charging Facilities Project Centralized Linkage Start. URL http://www.sgcc.com.cn/
[3] Quddus M A, Kabli M, Marufuzzaman M. Modeling electric vehicle charging station expansion with an integration of renewable energy and Vehicle-to-Grid sources [J]. Transportation Research, 2019, 128(8):251- 279.
[4] Yang M, Zhang L H, Dong W J. Economic benefit analysis of charging models based on differential electric vehicle charging infrastructure subsidy policy in China [J]. Sustainable Cities and Society, 2020, 59.
[5] Yue W, Liu Y, Tong Y, et al. Role of government subsidies in the new energy vehicle charging facility industry: a three-party game perspective [J]. China population, resources and environment, 2020, 30(11) : 119-126.
[6] Li D, Shang C, LV H, et al. Adoption of New Energy Vehicle in the Post-Subsidy Erawith Heterogeneous Consumer Demand [J]. Chinese Journal of Management Science, 2024, 32(04):141-152.
[7] Hu Y, Jin Y, Zhang S. Climate, Health Impacts, and Social Costs of Electric Vehicles in China: A Cost-Benefit Analysis [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2021, 57 (05): 916-926.
[8] Liu H C, You X Y, Xue Y X, et al. Exploring critical factors influencing the diffusion of electric vehicles in China: A multi-stakeholder perspective [J] Research in Transportation Economics. 2017, 66:46-58.
[9] Li G, Luo R, Gu Y. Government’s Promotion Policies and the Demand of New-Energy Vehicles: Evidence from Shanghai [J]. China Industrial Economics, 2019, (04): 42-61.
[10] Lim M K, Mak H Y, Rong Y. Toward mass adoption of electric vehicles: Impact of the range and resale anxieties [J]. Manufacturing & Service Operations Management, 2015, 17(1): 101-119.
[11] Wang T, Deng S. Optimal building policies of charging stations with automobile supply chain analysis [J]. Chinese Journal of Management Science, 2018, 26(10): 152-163.
[12] Tian W, Shiming D. Supply chain leading models of building charging stations: Leaders, subsidy policies, and cost sharing [J]. International Journal of Sustainable Transportation, 2019, 13(3): 155-169.
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