Design and validation of a battery management system for solar-assisted electric vehicles

Hongqian Wei, Yan Zhong, Likang Fan, Qiang Ai, Wenqiang Zhao, Rui Jing*, Youtong Zhang*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

19 Citations (Scopus)

Abstract

Expanding the travel mileage of power batteries is of great significance for electric vehicles (EVs). The solar battery pack is considered as a promising supplement to the battery management system (BMS) of EVs but integrating solar power into EVs remains a challenge. This paper proposes a BMS that coordinates the solar panels and the lithium battery system. The proposed BMS mainly involves three aspects. Firstly, an equivalent second-order resistance-capacitance model is established and afterwards is identified by using an improved recursive least squares algorithm. Then, the maximum power prediction strategy is developed based on the advanced state of charge (SOC) algorithm and the available solar energy estimation algorithm. Thirdly, a multi-stage constant current charging strategy based on the adaptive genetic algorithm is designed to optimize the battery temperature rise and charging time simultaneously. The proposed BMS is validated by the experiment on a real-world solar-assisted EV. The results indicate that the proposed power prediction strategy can accurately estimate the available power for EVs. Compared with the widely-used charging method, the developed optimal charging strategy reduces the charging time and temperature rise by 7%–11% and 36%–45%, respectively.

Original languageEnglish
Article number230531
JournalJournal of Power Sources
Volume513
DOIs
Publication statusPublished - 30 Nov 2021

Keywords

  • Battery management system
  • Electric vehicles
  • Energy schedule
  • Model and optimization
  • Photovoltaic cell
  • Solar energy

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