World Electric Vehicle Journal (Nov 2022)

Regional Electric Vehicle Fast Charging Network Design Using Common Public Data

  • Nathaniel S. Pearre,
  • Lukas G. Swan,
  • Erin Burbidge,
  • Sarah Balloch,
  • Logan Horrocks,
  • Brendan Piper,
  • Julia Anctil

DOI
https://doi.org/10.3390/wevj13110212
Journal volume & issue
Vol. 13, no. 11
p. 212

Abstract

Read online

Electric vehicles rely on public fast charging when traveling outside a single charge range. Networks of fast charging hubs are a preferred solution, but should be deployed according to a design that avoids both redundant infrastructure representing overinvestment, and “charging deserts” which limit travel by EVs and thus inhibit EV adoption. We present a two-stage design strategy for a network of charging hubs relying on common public data including maps of roadways and electrical systems, and ubiquitous and readily accessible daily traffic volume data. First, the network design is based on the electrical distribution system, roadways, and a target inter-hub driving distance. Second, the number of fast chargers necessary at each hub to support expected vehicle kilometers is determined such that queuing to charge is infrequent. A case study to prepare Nova Scotia, Canada for the 2030 electric fleet of 15% of vehicles results in a network design with an average hub catchment area of 1230 km2 and 354 electric vehicles per fast charger, and ensures that they are equitably distributed and can enable travel by EV throughout the jurisdiction.

Keywords