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Full cover charging station location problem with routing

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  • Kınay, Ömer Burak
  • Gzara, Fatma
  • Alumur, Sibel A.

Abstract

In this paper, a new full cover modeling framework is developed to design refueling station infrastructure, where the focus is on locating fast-charging stations for battery electric vehicles to enable long-distance transportation. A mathematical model is introduced to determine the optimal locations of these charging stations so that every origin-destination trip on a given transportation network is covered with respect to vehicle range. This full cover model allows deviations from the shortest paths and also determines an optimal route for each trip that requires the minimum total en route recharging. Two variants of this model are proposed: one that minimizes the total cost of locating charging stations and total en route recharging, and another that determines the locations of a predetermined number of stations to minimize the total en route recharging. Computational experiments performed on benchmark data sets validate that the proposed full cover models perform better than the maximum or set cover problem settings in the literature in terms of routing-related measures, such as total trip distance and maximum deviation from the shortest paths. A Benders decomposition algorithm is developed to optimally solve real-life instances of the problem. The Benders subproblem is identified as a many-to-many shortest path problem with an additional constraint that restricts the nodes that can be used to open facilities that are determined by the master problem. A new algorithmic methodology is developed to construct the dual solution for this subproblem and to generate non-dominated optimality cuts and strong valid inequalities for feasibility cuts. This novel algorithm accelerates the performance of the Benders algorithm up to 900 times over the tested large-size instances.

Suggested Citation

  • Kınay, Ömer Burak & Gzara, Fatma & Alumur, Sibel A., 2021. "Full cover charging station location problem with routing," Transportation Research Part B: Methodological, Elsevier, vol. 144(C), pages 1-22.
    • Handle: RePEc:eee:transb:v:144:y:2021:i:c:p:1-22
    DOI: 10.1016/j.trb.2020.12.001
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    References listed on IDEAS

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    3. Torkey, Alaa & Abdelgawad, Hossam, 2022. "Framework for planning of EV charging infrastructure: Where should cities start?," Transport Policy, Elsevier, vol. 128(C), pages 193-208.
    4. Kinene, Alan & Birolini, Sebastian & Cattaneo, Mattia & Granberg, Tobias Andersson, 2023. "Electric aircraft charging network design for regional routes: A novel mathematical formulation and kernel search heuristic," European Journal of Operational Research, Elsevier, vol. 309(3), pages 1300-1315.

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