A Highly Efficient Control Framework for Centralized Residential Charging Coordination of Large Electric Vehicle Populations: Article No. 105661

Andrew Meintz, Myungsoo Jun, Zonggen Yi, Don Scoffield, John Smart, Manish Mohanpurkar, Anudeep Medam

Research output: Contribution to journalArticlepeer-review

69 Scopus Citations

Abstract

The potential for widespread adoption of plug-in electric vehicles (PEVs) brings with it the potential for negative impacts on the electric grid from electric vehicle charging. Uncoordinated PEV charging may increase electricity demand during peak hours, which could create concerns for the grid as the number of PEVs increases. Therefore, it is important to coordinate charging to alleviate potential negative impacts. Centralized charging coordination is preferred by grid operator over distributed control strategies because it can systematically allocate energy across a large population of PEVs and achieve global coordination benefits. However, centralized methods presented in the literature to date require prohibitively expensive computational resources and lack realistic PEV charging models. As a result, they cannot achieve the efficiency and accuracy required to implement charging coordination in the real world. This paper introduces a highly efficient receding horizon control framework that enables dynamic charging coordination for large PEV populations. A two-stage hierarchical optimization routine is proposed that aggregates individual PEV charging flexibility to reduce the computational complexity of the optimization process. The control framework is based on high-fidelity, validated charging system models and charging behavior models derived from a real-world data set of residential charging activities collected from thousands of charging stations over multiple years. Case studies illustrate that the proposed charging control framework is capable of effectively coordinating the charging of millions of PEVs using a standard desktop computer.
Original languageAmerican English
Number of pages17
JournalInternational Journal of Electrical Power and Energy Systems
Volume117
DOIs
StatePublished - 2020

NREL Publication Number

  • NREL/JA-5400-72644

Keywords

  • aggregator
  • centralized charging coordination
  • electric vehicle
  • highly efficient
  • receding horizon control
  • smart charging

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