ABSTRACT
The development of electric vehicles has been rapid in recent years and makes a significant contribution to saving energy [1]. However, relatively long charging times hinder further improvements. This design is based on the concept of 'battery swapping' rather than 'battery charging' and comprises three main aspects: underground battery storage; new technology for battery designs; and unit number, pricing function and charge control. The feasibility of this design is proven through software simulation and a survey.
- Caizhen Lin. 2019. Discussion on new energy vehicles [J]. Modern marketing (business version).Google Scholar
- Shaojie Zhu. [2019--05--25]. Electric vehicle charging fault diagnosis and treatment [J/OL]. Usage and maintenance of agricultural machinery, 2019(05):49.Google Scholar
- Hao Bin, Lu Tegang, Ma Yangyang. 2019. Charging Energy Prediction of Electric Vehicle Power Battery Based on Big Data Analysis. Automobile applied technology. 2019(09):14--16.Google Scholar
- Chao Weng. 2019. Research on centralized electric energy planning technology for electric vehicle charging piles. 2019(12):132.Google Scholar
- SUN Wei-xuan, CHEN Yi, WANG Shuai, WANG Gui-ping. 2019. Development and Design of Unmanned Rechargeable Pile for Electric Vehicle, 2019, 38(04): 29--32+53.Google Scholar
- Zhou Peng. 2019. Reconfiguration strategy of distribution network considering characteristics of grid-connected distributed generation [J/OL]:1--8[2019--05--28].Google Scholar
- Feng Liu, Changle Xiang, Hui Liu, Lijin Han, Yunhao Wu, Xiaojie Wang, Pu Gao. 2019. Asymmetric effect of static radial eccentricity on the vibration characteristics of the rotor system of permanent magnet synchronous motors in electric vehicles[J]. Nonlinear Dynamics, 2019, 96(4).Google Scholar
- Liridona Sopjani, Jenny Janhager Stier, Sofia Ritzén, Mia Hesselgren, Peter Georén. 2019. Involving users and user roles in the transition to sustainable mobility systems: The case of light electric vehicle sharing in Sweden[J]. Transportation Research Part D, 2019, 71.Google Scholar
Index Terms
- Electric Vehicle Battery Swapping Station Design
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