Different Demand for Charging Infrastructure along a Stretch of Highway: Italian Case Study

Electric Vehicles (EVs) play an important role to reach the global ambitious climate and air quality goals. The timely implementation of adequate EV charging infrastructure is critical to the success of the ecological revolution. However, at the same time, EV adoption is the main driver for the business case of EV charging infrastructure. In order to implement an optimal charging infrastructure, it is important to consider all the relevant factors which influence the charging demand of EVs. This paper aims to evaluate the charging infrastructure on highways by considering several factors that impact electric vehicle deployment. To do this, a simulation model is developed. An agent-based approach, according the AnyLogic software tool, is used to emulate the human behavior and its impact on load demand due to EV charging. Furthermore, a discrete event method is applied for simulating the queue in the charging stations. Therefore, an electric vehicle routing algorithm is developed, which analyses the current status of the charging infrastructure along the highway considering an EV traffic flow travels in the highway in one day.

[1]  D. Sauer,et al.  Electric vehicle route planning using real-world charging infrastructure in Germany , 2021, eTransportation.

[2]  Yanfeng Ouyang,et al.  Electric vehicle fast charging infrastructure planning in urban networks considering daily travel and charging behavior , 2021 .

[3]  D. S. Bunch,et al.  Demand drivers for charging infrastructure-charging behavior of plug-in electric vehicle commuters , 2019, Transportation Research Part D: Transport and Environment.

[4]  Simon Moser,et al.  Allocation of e-car charging: Assessing the utilization of charging infrastructures by location , 2019, Transportation Research Part A: Policy and Practice.

[5]  Masood Parvania,et al.  Advanced charging infrastructure for enabling electrified transportation , 2019, The Electricity Journal.

[6]  Eren Özceylan,et al.  Optimal siting of electric vehicle charging stations: A GIS-based fuzzy Multi-Criteria Decision Analysis , 2018, Energy.

[7]  Bryce L. Ferguson,et al.  Optimal Planning of Workplace Electric Vehicle Charging Infrastructure with Smart Charging Opportunities , 2018, 2018 21st International Conference on Intelligent Transportation Systems (ITSC).

[8]  Vincenzo Antonucci,et al.  Electric vehicle charging infrastructure planning in a road network , 2017 .

[9]  Takayuki Morikawa,et al.  Impact of road gradient on energy consumption of electric vehicles , 2017 .

[10]  Csaba Csiszár,et al.  Determination of charging infrastructure location for electric vehicles , 2017 .

[11]  Peter H. Bauer,et al.  Optimization models for placement of an energy-aware electric vehicle charging infrastructure , 2016 .

[12]  John Miller,et al.  CO2 emissions associated with electric vehicle charging: The impact of electricity generation mix, charging infrastructure availability and vehicle type , 2016 .

[13]  Vincenzo Marano,et al.  Simulation-Optimization Model for Location of a Public Electric Vehicle Charging Infrastructure , 2013 .