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引用次数: 0

摘要

环保意识的增强和减少温室气体排放的众多法规的更强有力的执行,已引导人们努力应对当前的环境挑战。考虑到车辆路径问题(VRP),控制温室气体排放的有效策略之一是将化石燃料驱动的车辆转换为环境友好型车辆(efv)。考虑到为不同类型的vrp定义的众多约束和假设,以及每种类型的EFV特有的假设和操作约束,已经引入了许多环境友好型vrp (EF-VRP)的变体。本文回顾了关于EFV - vrp的研究,考虑了所有道路运输EFV类型和问题变体,并以单一的整体视角进行了分类和讨论。本文的目的是双重的。首先,根据不同类型的电动汽车,即替代燃料汽车(afv)、电动汽车(ev)和混合动力汽车(HVs),确定了EF-VRP研究的分类。其次,综合考虑文献中出现的各种分类、技术约束和解决方法,进行了全面的综述。本文的研究结果表明,EF-VRP的研究相对较新,在一些领域仍有较大的改进空间。因此,为了确定未来的见解,对于EF-VRP研究的每个分类,本文提供了文献空白和未来的研究需求。
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The growth of environmental awareness and more robust enforcement of numerous regulations to reduce greenhouse gas (GHG) emissions have directed efforts towards addressing current environmental challenges. Considering the Vehicle Routing Problem (VRP), one of the effective strategies to control greenhouse gas emissions is to convert the fossil fuel-powered fleet into Environmentally Friendly Vehicles (EFVs). Given the multitude of constraints and assumptions defined for different types of VRPs, as well as assumptions and operational constraints specific to each type of EFV, many variants of environmentally friendly VRPs (EF-VRP) have been introduced. In this paper, studies conducted on the subject of EF-VRP are reviewed, considering all the road transport EFV types and problem variants, and classifying and discussing with a single holistic vision. The aim of this paper is twofold. First, it determines a classification of EF-VRP studies based on different types of EFVs, i.e., Alternative-Fuel Vehicles (AFVs), Electric Vehicles (EVs) and Hybrid Vehicles (HVs). Second, it presents a comprehensive survey by considering each variant of the classification, technical constraints and solution methods arising in the literature. The results of this paper show that studies on EF-VRP are relatively novel and there is still room for large improvements in several areas. So, to determine future insights, for each classification of EF-VRP studies, the paper provides the literature gaps and future research needs.
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