混合和预测充电需求下的电动汽车充电设施选址优化

Dandan Hu, Shuxuan Cai, Zhiwei Liu
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引用次数: 0

摘要

尽管电动汽车具有环保效益,在交通运输中越来越受欢迎,但如果没有适当的充电基础设施,电动汽车不会被广泛采用。本文主要研究充电设施的选址问题,以实现更优化的充电设施布局。电动汽车的充电需求可以分为两类。第一类是在购物中心、办公楼、停车场和住宅区等网络点产生的。第二类是沿着网络路径的流动产生的,例如在高速公路上和上下班的路上。该问题的目标是利用非线性整数规划模型最大化两类充电需求。引入空间交叉口模型来获取路径需求数据。引入空间交叉口模型,获取路径需求数据。此外,通过数据预测,在优化中考虑了未来的需求。然后,设计贪心算法求解优化模型。大量的随机实验证明了该方法的有效性。最后,通过实例分析了参数的影响。同时考虑两种需求的充电站选址决策比只考虑一种需求的充电站选址决策更为合理。该模型保证了充电网络的覆盖范围和适当的扩展。
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Electric Vehicle Charging Infrastructure Location Optimization with Mixed and Forecasted Charging Requirements
Electric vehicles are not widely adopted without proper charging infrastructure, despite their environmental benefits and growing popularity in transportation. This paper focuses on the location problem of charging infrastructure to achieve a more optimized charging facility layout. The charging demands of electric vehicles can be divided into two categories. The first category is generated at network points such as shopping malls, office buildings, parking lots, and residential areas. The second category is generated along the flow of network paths, such as on the highway and on the way to and from work. The goal of this problem is to maximize both categories of charging demands using a nonlinear integer programming model. We introduce the spatial intersection model to obtain the data on path demand. The spatial intersection model is introduced to obtain data on path demand. In addition, future demand is taken into account in the optimization through data forecasting. Then, the greedy algorithm is designed to solve the optimization model. The effectiveness is proved by a lot of random experiments. Finally, the effects of parameters are analyzed by a case study. The location decision of charging stations for both demands is more reasonable than only one type of demand consideration. The proposed model ensures the coverage and appropriate extension of the charging network.
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