Impact of Open Communication Networks on Load Frequency Control with Plug-In Electric Vehicles by Cyber-Physical Dynamic Co-Simulation: Preprint

Wenbo Wang, Mengmeng Cai, Xin Fang, Chris Irwin

Research output: Contribution to conferencePaper

Abstract

With the increasing electrification of the transportation sector, vehicle to grid (V2G) control technologies are promising to improving system frequency stability. However, these control technologies might require non-traditional communication supports. This paper investigates the impacts of electric vehicles (EVs) V2G on power system frequency regulation considering communication variations through transmission-distribution-communication (TDC) dynamic simulation. The simulation model is built based on our previously developed open-source transmission-and-distribution (T&D) dynamic co-simulation framework. Here, we add the communication variation functions (i.e. delay and packet loss) to complete the TDC simulation framework. In the case studies, practical communication variation scenarios are considered when the system experiencing an N-1 generation trip contingency. The considered scenarios include communication delay and packet loss using both homogeneous and heterogeneous assumptions. The delay and packet loss rate are the same in all communication channels in the homogeneous case but varies in the heterogeneous case. The results show the communication delay has an obvious impact on the frequency recovery compared to the communication packet drop. The impacts of the standard deviations of communication delay time and packet drop rate are not significant. The outcomes of this work can help improve the EV frequency regulation services and provide robust and effect supports to the grid.
Original languageAmerican English
Number of pages8
StatePublished - 2022
Event2023 IEEE Conference on Innovative Smart Grid Technologies North America (ISGT NA) - Washington, D.C.
Duration: 16 Jan 202319 Jan 2023

Conference

Conference2023 IEEE Conference on Innovative Smart Grid Technologies North America (ISGT NA)
CityWashington, D.C.
Period16/01/2319/01/23

Bibliographical note

See NREL/CP-6A40-86261 for paper as published in proceedings

NREL Publication Number

  • NREL/CP-6A40-82369

Keywords

  • communication delay
  • electric vehicle
  • frequency regulation
  • packet loss
  • transmission-and-distribution dynamic co-simulation

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