Abstract
Increasing environmental concerns and legal regulations have led to the development of sustainable technologies and systems in logistics, as in many fields. The adoption of multi-echelon distribution networks and the use of environmentally friendly vehicles in freight distribution have become major concepts for reducing the negative impact of urban transportation activities. In this line, the present paper proposes a two-echelon electric vehicle routing problem. In the first echelon of the distribution network, products are transported from central warehouses to satellites located in the surroundings of cities. This is achieved by means of large conventional trucks. Subsequently, relatively smaller-sized electric vehicles distribute these products from the satellites to demand points/customers located in the cities. The proposed problem also takes into account the limited driving range of electric vehicles that need to be recharged at charging stations when necessary. In addition, the proposed problem considers time window constraints for the delivery of products to customers. A mixed-integer linear programming formulation is developed and small-sized instances are solved using CPLEX. Furthermore, we propose a constructive heuristic based on a modified Clarke and Wright savings heuristic. The solutions of this heuristic serve as initial solutions for a variable neighborhood search metaheuristic. The numerical results show that the variable neighborhood search matches CPLEX in the context of small problems. Moreover, it consistently outperforms CPLEX with the growing size and difficulty of problem instances.
Highlights
Accepted: 14 January 2022After the industrial revolution, the increasing consumption of fossil fuels caused numerous environmental and socioeconomic problems
The problem we address in this study combines two main research lines: the one on electric vehicle routing problems (EVRPs) and the one on two-echelon vehicle routing problems (2E-VRPs)
We propose an approach based on variable neighborhood search (VNS) to solve the 2E-EVRP-time window (TW)
Summary
The increasing consumption of fossil fuels caused numerous environmental and socioeconomic problems. One of the most recent regulations in this field is the decision approved by the European Parliament on 18 February 2019, stating that the emissions of new trucks will need to be 30% lower in 2030 compared to 2019 emissions data [1] In this context, sustainable city logistics emerged as a concept for reducing the negative impact of urban transportation activities on society, the environment and the economy. Two-echelon distribution networks are advantageous for preventing large trucks entering the cities and, in this way, reducing urban traffic jams, noise, and pollution In addition to these features, our 2E-EVRP-TW problem considers time window (TW) constraints for the delivery of goods to customers. Note that time windows can be used to control the visiting times of the customers, which might be regulated by local jurisdictions, and by the customers themselves
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