@inbook{1505220884024040b42051ee4d0771b6,
title = "Rapid restoration of electric vehicle battery performance while driving at cold temperatures",
abstract = "Electric vehicles (EVs) driven in cold weather experience two major drawbacks of Li-ion batteries: drastic power loss (up to 10-fold at −30 °C) and restriction of regenerative braking at temperatures below 5–10 °C. Both factors greatly reduce cruise range, exacerbating drivers' range anxiety in winter. While preheating the battery before driving is a practice widely adopted to maintain battery power and EV drivability, it is time-consuming (on the order of 40 min) and prohibits instantaneous mobility. Here we reveal a control strategy that can rapidly restore EV battery power and permit full regeneration while driving at temperatures as low as −40 °C. The strategy involves heating the battery internally during regenerative braking and rest periods of driving. We show that this technique fully restores room-temperature battery power and regeneration in 13, 33, 46, 56 and 112 s into uninterrupted driving in 0, −10, −20, −30 and −40 °C environments, respectively. Correspondingly, the strategy significantly increases cruise range of a vehicle operated at cold temperatures, e.g. 49% at −40 °C in simulated US06 driving cycle tests. The present work suggests that smart batteries with embedded sensing/actuation can leapfrog in performance.",
author = "Guangsheng Zhang and Shanhai Ge and Yang, {Xiao Guang} and Yongjun Leng and Dan Marple and Wang, {Chao Yang}",
year = "2017",
month = dec,
day = "15",
doi = "10.1016/j.jpowsour.2017.10.029",
language = "English (US)",
isbn = "1600-051X (Electronic)\r0303-6979 (Linking)",
series = "Journal of Power Sources",
publisher = "Elsevier B.V.",
pages = "35--40",
booktitle = "Journal of Power Sources",
}