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A study on the construction of EV charging infrastructures in highway rest area

机译：公路休息区EV充电基础设施建设研究

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This paper proposes a method of constructing charging infrastructures in highway rest areas for the propagation and efficient operation of electric vehicles (EV). The supply of EVs was predicted with LPG vehicles as the propagation model. To determine the reasonable capacities, locations, and sizes of the charging stations, the technical trends and commercialization level of charging systems were analyzed. The annual supply of highway charging systems must be able to fulfill the daily maximum charging capacity throughout the year. The daily maximum charging demand was calculated with the highway daily average running distance, highway maximum traffic volume, and EV fuel efficiency. The supply of fast charging systems in each section was formulated with the daily maximum charging demand, the EV mainline traffic volume, fast charging system capacity (40 kW), and the utilization rate of charging facilities in rest areas. This paper presents the supply of fast charging systems in each section of highways from 2015 to 2034 through various variables and formulas and proposes a method of constructing more rational charging infrastructure in the future.

机译：本文提出了一种在高速公路休息区域构建充电基础设施的方法，以实现电动车辆的传播和有效运行（EV）。用LPG车辆预测EVS的供应作为传播模型。为了确定充电站的合理容量，位置和大小，分析了充电系统的技术趋势和商业化水平。每年的公路充电系统供应必须能够全年满足日常充值能力。每日最大充电需求采用公路日平均运行距离，高速公路最大交通量和EV燃油效率计算。每个截面供应在每节中的快速充电系统的配制，每日最大充电需求，EV主线交通量，快速充电系统容量（40千瓦）以及休息区域充电设施的利用率。本文通过各种变量和公式提出了2015年至2034的高速公路的每个部分中的快速充电系统，并提出了一种在未来构建更多合理充电基础设施的方法。

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《International Conference on Power Engineering, Energy and Electrical Drives 》|2013年||共5页
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Kim Si-Yeon; Jung Hyun-Woo; Hwang Jae-Dong; Lee Sang-Cheol;
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正文语种
中图分类输配电工程、电力网及电力系统 ;
关键词
EV charging demand; EV charging infrastructures; EV charging station; electric vehicle; fast charging system;

机译：EV充电需求;EV充电基础设施;EV充电站;电动车辆;快速充电系统;

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A study on the construction of EV charging infrastructures in highway rest area

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