电动汽车的电弧路径:动态充电和速度相关的能源消耗

E. Fernández, Markus Leitner, I. Ljubić, Mario Ruthmair
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引用次数: 6

摘要

对温室气体排放和政府法规的担忧促进了电动汽车的使用。最近发表的几篇文章研究了电动汽车(ev)在节点路由问题中的应用。相比之下,本文在电弧布线的背景下考虑电动汽车,同时也解决了迄今为止尚未得到充分解决的实际相关方面。其中包括电动汽车在行驶过程中的动态充电、依赖于速度的能量消耗以及依赖于电池充电状态和充电时间的非线性充电功能。通过能量索引图的概念,提出了一种处理这些问题的通用方法,并利用能量索引图的概念导出了整数线性规划公式和基于支割的求解框架。提出了近似求解大规模实例的高效构造启发式算法和局部搜索算法。对实际问题实例进行了计算研究。除了分析所有提出的方法的性能外,所获得的结果还提供了与电池尺寸和充电设施数量相关的战略决策的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Arc Routing with Electric Vehicles: Dynamic Charging and Speed-Dependent Energy Consumption
Concerns about greenhouse gas emissions and government regulations foster the use of electric vehicles. Several recently published articles study the use of electric vehicles (EVs) in node-routing problems. In contrast, this article considers EVs in the context of arc routing while also addressing practically relevant aspects that have not been addressed sufficiently so far. These include dynamic charging of EVs while driving, speed-dependent energy consumption, and nonlinear charging functions that depend on the battery’s state of charge and the charging time. A generic way of dealing with these aspects is introduced through the concept of an energy-indexed graph, which is used to derive an integer linear programming formulation and a solution framework based on branch and cut. Efficient construction heuristics and a local search for approximately solving large-scale instances are proposed. A computational study is performed on realistic problem instances. Besides analyzing the performance of all proposed methods, the obtained results also provide insights into strategic decisions related to the battery size and the amount of charging facilities.
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