Research Progress on Low-temperature Characteristics and Heating Techniques of Vehicle Lithium-ion Battery

被引：0

作者：

Zhu J. ^{[1
,2
]}

Sun Z. ^{[1
]}

Wei X. ^{[1
]}

Dai H. ^{[1
]}

Fang Q. ^{[1
]}

Tang X. ^{[1
]}

机构：

[1] Clean Energy Automotive Engineering Center & School of Automotive Studies, Tongji University, Shanghai

[2] KIT, IAM-ESS, Karlsruhe

来源：

Qiche Gongcheng/Automotive Engineering | 2019年 / 41卷 / 05期

关键词：

Electric vehicles; Heating techniques; Lithium-ion batteries; Low temperature performances; Thermal management;

D O I：

10.19562/j.chinasae.qcgc.2019.05.014

中图分类号：

学科分类号：

摘要：

In view of the deterioration of power characteristics and the lowering of charging and discharging efficiencies in traction battery, hampering the further development of electric vehicles, the tests of charging, discharging and electrochemical impedance spectroscopy characteristics are carried out on traction batteries with different material systems and specifications to analyze the key factors affecting the low-temperature performances of Li-ion traction batteries on one hand, and a comprehensive preview is conducted on the current research progress in low-temperature heating technology from the angle of traction battery thermal management on the other hand, aiming at providing a guidance for improving the low-temperature performance and the further research on low-temperature thermal management technique of traction batteries. © 2019, Society of Automotive Engineers of China. All right reserved.

引用

页码：571 / 581and589

共 87 条

[1] Bresser D., Hosoi K., Howell D., Et al., Perspectives of automotive battery R& D in China, Germany, Japan, and the USA, Journal of Power Sources, 382, pp. 176-178, (2018)
[2] Lu L., Han X., Li J., Et al., A review on the key issues for lithium-ion battery management in electric vehicles, Journal of Power Sources, 226, pp. 272-288, (2013)
[3] Harks P.P.R.M.L., Mulder F.M., Notten P.H.L., In situ methods for Li-ion battery research: a review of recent developments, Journal of Power Sources, 288, pp. 92-105, (2015)
[4] Cho H.M., Choi W.S., Go J.Y., Et al., A study on time-dependent low temperature power performance of a lithium-ion battery, Journal of Power Sources, 198, pp. 273-280, (2012)
[5] Petzl M., Kasper M., Danzer M.A., Lithium plating in a commercial lithium-ion battery-a low-temperature aging study, Journal of Power Sources, 275, pp. 799-807, (2015)
[6] Zhang S.S., Xu K., Jow T.R., Electrochemical impedance study on the low temperature of Li-Ion batteries, Electrochimica Acta, 49, 7, pp. 1057-1061, (2004)
[7] Zhang S.S., Xu K., Jow T.R., Low temperature performance of graphite electrode in Li-ion cells, Electrochimica Acta, 48, 3, pp. 241-246, (2002)
[8] Li S., Li X., Liu J., Et al., A low-temperature electrolyte for lithium-ion batteries, Ionics, 21, 4, pp. 901-907, (2014)
[9] Senyshyn A., Muhlbauer M.J., Dolotko O., Et al., Low-temperature performance of Li-ion batteries: the behavior of lithiated graphite, Journal of Power Sources, 282, pp. 235-240, (2015)
[10] Bitzer B., Gruhle A., A new method for detecting lithium plating by measuring the cell thickness, Journal of Power Sources, 262, pp. 297-302, (2014)

← 1 2 3 4 5 6 7 8 9 →