[1] 邓永清,滕永霞. 锂电在电动汽车中的应用[J]. 科技创新与应用,2016(24):135. DENG Y Q,TENG Y X. The application of lithium batteries in electric vehicles[J]. Technology Innovation and Application,2016(24):135.
[2] MQHAMMADIAN S K,ZHANG Y. Thermal management optimization of an air-cooled Li-ion battery module using pin-fin heat sinks for hybrid electric vehicles[J].Journal of Power Sources,2015,273:431-439.
[3] NELSON P,DEES D,AMINE K,et al. Modeling thermal management of lithium-ion PNGV batteries[R]. Journal of Power Sources,2002,110(2):349-356.
[4] SHIDORE N,BOHN T. Evaluation of cold temperature performance of the JCS-VL41M PHEV battery using Battery HIL[R]. SAE International:2008-01-1333.
[5] NEUBAUER J,WOOD E. Thru-life impacts of driver aggression,climate,cabin thermal management,and battery thermal management on battery electric vehicle utility[J]. Journal of Power Sources,2014,259(4):262-275.
[6] 吴赟,蒋新华,解晶莹. 锂离子电池循环寿命快速衰减的原因[J]. 电池,2009,39(4):206-207. WU Y,JIANG X H,XIE J Y. The reasons of rapid decline in cycle life of Li-ion battery[J]. Battery Bimonthly,2009,39(4):206-207.
[7] 段泉滨,邱慧敏,赵程. 高功率钛酸锂电池倍率及低温性能研究[J]. 科技视界,2016(10):299. DUAN Q B,QIU H M,ZHAO C. Study of high power Ti-lithium battery ratio and low temperature performance[J]. Science and Technology Vision,2016(10):299.
[8] HAND A,STUART T A. AC heating for EV/HEV batteries[J]. Power Electronics in Transportation,2002,18(3):119-124.
[9] HAND A. A high frequency inverter for cold temperature battery heating[C]//Proceedings of the IEEE Workshop on Computers in Power Electronics. Urbana,USA. 2004:215-222.
[10] STUART T A,HAND A. HEV battery heating using AC currents[J]. Journal of Power Sources,2004,129(2):368-378.
[11] MATTHE R,TUMER L,METTLACH H. VOLTEC battery system for electric vehicle with extended range[J]. SAE International Journal of Engines,2011,4(1):1944-1962.
[12] YUAN H,WANG L F,WANG L Y. Battery Thermal management system with liquid cooling and heating in electric vehicles[J]. Journal of Automotive Safety and Energy,2012,3(4):371-380.
[13] 王发成,张俊智,王丽芳. 车载动力电池组用空气电加热装置设计[J]. 电源技术,2013,37(7):1184-1187. WANG F C,ZHANG J Z,WANG L F. Design of electric air-heated box for batteries in electric vehicles[J]. Chinese Journal of Power Sources,2013,37(7):1184-1187.
[14] SONG H S,JEONG J B,LEE B H,et al. Experimental study on the effects of pre-heating a battery in a low-temperature environment[C]//Proceedings of 2012 IEEE Vehicle Power and Propulsion Conference. Seoul:IEEE,2012:1198-1201.
[15] 雷治国,张承宁,雷学国,等. 电传动车辆用锂离子电池组低温加热方法研究[J]. 电源学报,2016,14(1):102-108. LEI Z G,ZHANG C N,LEI X G,et al. Study on heating method of lithium-ion battery used in electric vehicle[J]. Journal of Power Supply,2016,14(1):102-108.
[16] 张承宁,雷治国,董玉刚,等. 电动汽车锂离子电池低温加热方法研究[J]. 北京理工大学学报,2012,32(9):45-49. ZHANG C N,LEI Z G,DONG Y G,et al. Method for heating low-temperature lithium battery in electric vehicle[J].Transactions of Beijing Institute of Technology,2012,32(9):45-49.
[17] ALAOUI C. Solid-state thermal management for lithium-ion EV batteries[J]. IEEE Transactions on Vehicular Technology,2013,62(1):98-107.
[18] SALAMEH Z M,ALAOUI C. Modeling and simulation of a thermal management system for electric vehicles[C]//Proceedings of the 29th Annual Conference of the IEEE Industrial Electronics Society. Roanoke:IEEE,2003:887-890.
[19] ZHAO Y H,DIAO Y H,ZHANG K R. Novel flat-plate heat pipe with stratose microflute micro heat pipe group:200910078903A[P]. 2009-02-27.
[20] DENG Y C,ZHAO Y H,WANG W,et al. Experimental investigation of performance for the novel flat plate solar collector with micro-channel heat pipe array (MHPA-FPC)[J]. Applied Thermal Engineering,2013,54(2):440-449. |