Charging powers of the electric vehicle fleet: Evolution and implications at commercial charging sites

Electric vehicle (EV) charging is widely studied in the scientific literature. However, there seems to be a notable research gap regarding the charging power limitations of the on-board chargers of the EVs. In this paper, the present state of the maximum charging powers of the on-board chargers is thoroughly analysed using data from two commercial charging sites. Furthermore, the results of the analysis are used along with an EV fleet development model to form realistic future scenarios, which are then used for a simulation model that couples the charging sessions with measured charging profiles. The results of the simulations show that, due to the evolution of the EV fleet, the average energy consumption in commercial locations will increase by 134% on average from 5.6 to 8.7 kWh/EV to 13.0-19.6 kWh/EV during 2020-2040. Similarly, the peak of the normalized power increases by 77% on average from 1.1 to 1.4 kW/EV to 1.6-2.9 kW/EV. These values are essential to guide longterm decisions such as optimal sizing of charging infrastructure and parking policies.

Automated summary

This paper thoroughly analyses the current state of maximum charging powers of on-board chargers for electric vehicles using data from commercial charging sites. The results predict a significant increase in energy consumption and peak power in commercial locations due to the evolution of the EV fleet, providing essential guidance for long-term decisions on charging infrastructure and parking policies.