Litcius/Paper detail

Different Charging Strategies for Electric Vehicle Fleets in Urban Freight Transport

Bram Kin, Meike Hopman, Hans Quak

2021Sustainability43 citationsDOIOpen Access PDF

Abstract

The transition from diesel-driven urban freight transport towards more electric urban freight transport turns out to be challenging in practice. A major concern for transport operators is how to find a reliable charging strategy for a larger electric vehicle fleet that provides flexibility based on different daily mission profiles within that fleet, while also minimizing costs. This contribution assesses the trade-off between a large battery pack and opportunity charging with regard to costs and operational constraints. Based on a case study with 39 electric freight vehicles that have been used by a parcel delivery company and a courier company in daily operations for over a year, various scenarios have been analyzed by means of a TCO analysis. Although a large battery allows for more flexibility in planning, opportunity charging can provide a feasible alternative, especially in the case of varying mission profiles. Additional personnel costs during opportunity charging can be avoided as much as possible by a well-integrated charging strategy, which can be realized by a reservation system that minimizes the risk of occupied charging stations and a dense network of charging stations.

Topics & Concepts

Flexibility (engineering)ReservationTransport engineeringFleet managementBattery (electricity)Traffic managementElectric vehicleOperations researchAutomotive engineeringComputer scienceEngineeringEconomicsPower (physics)Computer networkManagementQuantum mechanicsPhysicsUrban and Freight Transport LogisticsElectric Vehicles and InfrastructureTransportation and Mobility Innovations