2JARRETT A, KIM I Y. Design optimization ofelectric vehicle battery cooling plates for thermal performance [J]. Journal of Power Sources, 2011, 196(23), 10359-10368. 被引量:1
3CHEN S C, WAN C C, WANG Y Y. Thermal analysis of lithium-ion batteries [J]. Journal of Power Sources, 2005, 140(1):111-124. 被引量:1
4PESARAN A A. Battery thermal models for hybrid vehicle simulations [J]. Journal of Pozver Sources, 2002, 110(2) :377-382. 被引量:1
5PESARAN A A, VLAHINOS A, BURCH S D, et al. Thermal performance of EV and HEV battery modules and packs [C]. Proceedings of the 14th International Electric Vehicle Symposium. Orlan- do, Florida, 1997. 被引量:1
6PESARAN A A, SWAN D, OLSON J, et al. Thermal Analysis and Performance of a Battery Pack for a Hybrid Electric Vehicle [M]. Grodon, CO:National Renewable Energy Laboratory, 1998. 被引量:1
7MAHAMUD R, CHANWOO P. Reciprocating air flow for Li-ion battery thermal management to improve temperature uniformity [J]. Journal of Power Sources, 2011, 196(13) :5685-5696,. 被引量:1
8BERNARDI D, PAWLIKOWSKI E, NEWMAN J. A general energy balance for battery systems [J]. Journal of the Electrochemical Society, 1985, 132(1) :5-12. 被引量:1
9SATO N. Thermal behavior analysis of lithium-ion batteries for electric and hybrid vehicles [J]. Journal of Power Sources, 2001, 99(1) :70-77. 被引量:1
10KIZILEL R, LATTEL A, SABBAH R, et al. Passive control of temperature excursion and uniformity in high-energy Li-ion battery packs at high current and ambient temperature[J]. Journal of Power Sources, 2008, 83: 370-375. 被引量:1
