锂离子电池产热特性理论模型研究进展
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摘要
本文根据近年来锂离子电池产热特性方面的研究,详细阐述了锂离子电池产热的基本原理,并总结了国内外锂离子电池产热模型的研究现状。重点针对电化学-热耦合模型、电-热耦合模型以及热滥用模型进行了详细综述,并在此基础上对锂离子电池热效应的研究和产热模型的建立进行了展望。
According to the progress of studies on the thermal characteristic of lithium-ion battery, the heat generation mechanism and thermal models of lithium-ion battery have been summarized, especially the electrochemical thermal coupling model, electro-thermal coupling model and thermal abuse model. In addition, the future work on thermal effects and the establishment of thermal model of lithium-ion battery were prospected.
According to the progress of studies on the thermal characteristic of lithium-ion battery, the heat generation mechanism and thermal models of lithium-ion battery have been summarized, especially the electrochemical thermal coupling model, electro-thermal coupling model and thermal abuse model. In addition, the future work on thermal effects and the establishment of thermal model of lithium-ion battery were prospected.
引文
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[2]Rao Zhonghao(饶中浩).Research on power battery thermal management based on solid-liquid phase change heat transfer medium[D].Guangzhou:South China University of Technology(华南理工大学),2013.
[3]Bernardi D,Pawlikowski E,Newman J.A general balance for battery systems[J].J.Electrochemical Society,1985,132:1.
[4]Saito Y,Kanari K,Takano K.Thermal studies of a lithium-ion battery[J].J.Power Sources,1997,68:451-454.
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[39]Liu Guangming(刘光明),Ou Yang Minggao(欧阳明高),Lu Languang(卢兰光),Li Jianqiu(李建秋),Liang Jinhua(梁金华),Han Xuebing(韩雪冰).Online estimation of internal temperature fi elds of lithium-ionbatteries using a transfer function[J].Journal of Automotive Safety and Energy(汽车安全与节能学报),2013(1):61-66.
[40]Harathan D,Pesaran A,Vlahinos A,Kim G H.Improving battery design with electro-thermal modeling[C]//2005 IEEE Vehicle Power and Propulsion Conference(VPPC),2005,368-375.
[41]Kwon K H,Shin C B,Kang T H,Kim C S.A two-dimensional modeling of a lithium-polymer battery[J].J.Power Sources,2006,163(1):151-157.
[42]Smith K,Wang C Y.Power and thermal characterization of a lithium-ion battery pack for hybrid-electric vehicles[J].J.Power Sources,2006,160(1):662-673.
[43]Kim U S,Shin C B,Kim C S.Effect of electrode configuration on the thermal behavior of a lithium-polymer battery[J].J.Power Sources,2008,180(2):909-916.
[44]Pesaran A.Electrothermal analysis of lithium ion batteries[C]//The23rd International Battery Seminar&Exhibit.Florida,2006:1-26.
[45]Li Teng(李腾),Lin Chentao(林成涛),Chen Quanshi(陈全世).Lithium-ion battery 3-dimensional multi-layer multi-field model[J].Journal of Tsinghua University:Science and Technology(清华大学学报:自然科学版),2012(7):995-1000.
[46]E Jiaqiang(鄂加强),Long Yangping(龙艳平),Wang Shuhui(王曙辉),Cai Hao(蔡皓)Hu Xiaofeng(胡小峰),Zhu Rongjia(朱蓉甲).Thermal simulation on dynamic lithium-ion battery during charge and its grey relational analysis[J].Journal of Central South University:Science and Technology(中南大学学报:自然科学版),2013(3):998-1005.
[47]Ji Fenzhu(姬芬竹),Liu Lijun(刘丽君),Yang Shichun(杨世春),Xu Bin(徐斌).Heating generation model and heat dissipation performance of the power battery in electric vehicle[J].Journal of Beijing University of Aeronautics and Astronautics(北京航空航天大学学报),2014(1):18-24.
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[2]Rao Zhonghao(饶中浩).Research on power battery thermal management based on solid-liquid phase change heat transfer medium[D].Guangzhou:South China University of Technology(华南理工大学),2013.
[3]Bernardi D,Pawlikowski E,Newman J.A general balance for battery systems[J].J.Electrochemical Society,1985,132:1.
[4]Saito Y,Kanari K,Takano K.Thermal studies of a lithium-ion battery[J].J.Power Sources,1997,68:451-454.
[5]Sharpe T F,Conell R S.Low-temperature charging behaviour of lead-acid cells[J].Journal of Applied Electrochemistry,1987,17:789-799.
[6]Biensan P H,Simon B,Peres J P,Guibert A,Broussely M,Bodet J M.On safety of lithium-ion cells[J].J.Power Sources,1999,81-82:906-912.
[7]Li Shichun(李世椿),Lin Zuxiang(林祖镶).The new lithium-ion conductor[J].Chinese Journal of Nature(自然杂志),1982(11):879-880.
[8]Hu Guangxia(胡广侠),Xie Jingying(解晶莹).Some consideration for lithium-ion cells'safety[J].Electrochemistry(电化学),2002(3):245-251.
[9]Wang Qingsong(王青松),Sun Jinhua(孙金华),Chen Sining(陈思凝),Yao Xiaolin(姚晓林),Chen Chunhua(陈春华).Research progress in thermal safety of Li-ion batteries[J].Battery Bimonthly(电池),2005(3):240-241.
[10]Li Teng(李腾),Lin Chengtao(林成涛),Chen Quanshi(陈全世).Research development on lithium-ion battery thermal model[J].Chinese Journal of Power Sources(电源技术),2009(10):927-932.
[11]Song Li(宋丽),Wei Xuezhe(魏学哲),Dai Haifeng(戴海峰),Sun Zechang(孙泽昌).A review on the research of thermal models for lithium ion battery cell[J].Automotive Engineering(汽车工程),2013(3):285-291.
[12]Sato N.Thermal behavior analysis of lithium-ion batteries for electric and hybrid vehicles[J].J.Power Sources,2001,99(1-2):70-77.
[13]Srinivasan V,Wang C Y.Analysis of electrochemical and thermal behavior of Li-ion cells[J].Journal of the Electrochemical Society,2003,150(1):A98-A106.
[14]Onda K,Ohshima T,Nakayama M,Fukuda K,Araki T.Thermal behavior of small lithium-ion battery during rapid charge and discharge cycles[J].J.Power Sources,2006,158(1):535-542.
[15]Inui Y,Kobayashi Y,Watanabe Y,Watase Y,Kitamura Y.Simulation of temperature distribution in cylindrical and prismatic lithium ion secondary batteries[J].Energ.Convers.Manage.,2007,48(7):2103-2109.
[16]Song L,Evans J W.Electrochemical-thermal model of lithium polymer batteries[J].Journal of the Electrochemical Society,2000,147(6):2086-2095.
[17]Gu W B,Wang C Y.Thermal-electrochemical modeling of battery systems[J].Journal of the Electrochemical Society,2000,147(8):2910-2922.
[18]Wu M S,Liu K H,Wang Y Y,Wan C C.Heat dissipation design for lithium-ion batteries[J].J.Power Sources,2002,109(1):160-166.
[19]Al-Hallaj S,Selman J R.Thermal modeling of secondary lithium batteries for electric vehicle/hybrid electric vehicle applications[J].J.Power Sources,2002,110(2):341-348.
[20]Chen S C,Wan C C,Wang Y Y.Thermal analysis of lithium-ion batteries[J].J.Power Sources,2005,140(1):111-124.
[21]Forgez C,Do D V,Friedrich G,Morcrette M,Delacourt C.Thermal modeling of a cylindrical Li Fe PO4/graphite lithium-ion battery[J].J.Power Sources,2010,195(9):2961-2968.
[22]Yang Kai(杨凯),An Jinjing(安晋静),Chen Shi(陈实).Thermal behavior analysis of nickel/metal hydride battery during overcharging[J].Scientia Sinica Chimica(中国科学:化学),2010(11):1642-1648.
[23]Li Qi(李奇),Yang Lang(杨朗),Yang Hui(杨晖).Investigation of the heat production of Li-ion batteries during cycling[J].Chinese Journal of Power Sources(电源技术),2008(9):606-610.
[24]Zhang Yao(张遥),Bai Yang(白杨),Liu Xingjiang(刘兴江).Simulation analysis on thermal behavior for power lithium-ion battery[J].Chinese Journal of Power Sources(电源技术),2008(7):461-487.
[25]Wang Feng(王峰),Li Maode(李茂德).Thermal performance analysis of batteries[J].Chinese Journal of Power Sources(电源技术),2010(3):288-2891.
[26]Li Wencheng(李文成),Lu Shigang(卢世刚).Thermal behavior of C/Li Fe PO4 power secondary battery[J].The Chinese Journal of Nonferrous Metals(中国有色金属学报),2012(4):1156-1162.
[27]Zhang X W.Thermal analysis of a cylindrical lithium-ion battery[J].Electrochim Acta,2011,56(3):1246-1255.
[28]Wu W,Xiao X R,Huang X S.The effect of battery design parameters on heat generation and utilization in a Li-ion cell[J].Electrochim Acta,2012,83:227-240.
[29]Zhu Cong(朱聪),Li Xinghu(李兴虎),Song Lingjun(宋凌珺).A model for the heat generation rate of lithium-ion battery for electric vehicles[J].Automotive Engineering(汽车工程),2014(02):174-180.
[30]Jia Ming(贾明),Tang Yiwei(汤依伟),Chen Yun(程昀),et al.Electrochemical thermal model based research for electrochemical performance of lithium ion batteries[C]//The thirtieth national chemical and physical power of academic annual meeting(第30届全国化学与物理电源学术年会),Shanghai,2013.
[31]Ye Y H,Shi Y X,Cai N S,Lee J,He X M.Electro-thermal modeling and experimental validation for lithium ion battery[J].J.Power Sources,2012,199:227-238.
[32]Lu Lili(卢立丽),Wang Songrui(王松蕊),Liu Xingjiang(刘兴江).Contrast between lithium-ion cells models[J].Chinese Journal of Power Sources(电源技术),2011(7):765-767,883.
[33]Zhou Fang(周方),Li Maode(李茂德).Effect of temperature rising of cylindrical lithium-ion batteries[J].Chinese J.Power Sources(电源技术),2011(9):1061-1062,1068.
[34]Gui Changqing(桂长清).Influence of temperature on Li Fe PO4 Li-ion power battery[J].Battery Bimonthly(电池),2011(2):88-91.
[35]Li Zhe(李哲),Han Xuebing(韩雪冰),Lu Languang(卢兰光),Ouyang Minggao(欧阳明高).Temperature characteristics of power Li Fe PO4 batteries[J].Journal of Mechanical Engineering(机械工程学报),2011(18):115-120.
[36]Tang Yiwei(汤依伟),Jia Ming(贾明),Cheng Yun(程昀),Zhang Kai(张凯),Zhang Hongliang(张红亮),Li Jie(李劼).Estimation of temperature distribution of the polymer lithium ion power battery based on the coupling relationship between electrochemistry and heat[J].Acta Physica Sinica(物理学报),2013(15):498-507.
[37]Song Liubin(宋刘斌),Li Xinhai(李新海),Wang Zhixing(王志兴),Guo Huajun(郭华军),Xiao Zhongliang(肖忠良),Zhou Ying(周英).Finite element analysis and thermal behavior of lithium-ion cells during charge-discharge process[J].Journal of Functional Materials(功能材料),2013(8):1153-1158.
[38]Xu Meng(徐蒙),Zhang Zhuqian(张竹茜),Jia Li(贾力),Yang Lixin(杨立新).Study on electrochemical and heat transfer characteristics of cylindrical lithium-ion power battery during discharge cycle[J].Proceeding of the CSEE(中国电机工程学报),2013(32):54-61,65.
[39]Liu Guangming(刘光明),Ou Yang Minggao(欧阳明高),Lu Languang(卢兰光),Li Jianqiu(李建秋),Liang Jinhua(梁金华),Han Xuebing(韩雪冰).Online estimation of internal temperature fi elds of lithium-ionbatteries using a transfer function[J].Journal of Automotive Safety and Energy(汽车安全与节能学报),2013(1):61-66.
[40]Harathan D,Pesaran A,Vlahinos A,Kim G H.Improving battery design with electro-thermal modeling[C]//2005 IEEE Vehicle Power and Propulsion Conference(VPPC),2005,368-375.
[41]Kwon K H,Shin C B,Kang T H,Kim C S.A two-dimensional modeling of a lithium-polymer battery[J].J.Power Sources,2006,163(1):151-157.
[42]Smith K,Wang C Y.Power and thermal characterization of a lithium-ion battery pack for hybrid-electric vehicles[J].J.Power Sources,2006,160(1):662-673.
[43]Kim U S,Shin C B,Kim C S.Effect of electrode configuration on the thermal behavior of a lithium-polymer battery[J].J.Power Sources,2008,180(2):909-916.
[44]Pesaran A.Electrothermal analysis of lithium ion batteries[C]//The23rd International Battery Seminar&Exhibit.Florida,2006:1-26.
[45]Li Teng(李腾),Lin Chentao(林成涛),Chen Quanshi(陈全世).Lithium-ion battery 3-dimensional multi-layer multi-field model[J].Journal of Tsinghua University:Science and Technology(清华大学学报:自然科学版),2012(7):995-1000.
[46]E Jiaqiang(鄂加强),Long Yangping(龙艳平),Wang Shuhui(王曙辉),Cai Hao(蔡皓)Hu Xiaofeng(胡小峰),Zhu Rongjia(朱蓉甲).Thermal simulation on dynamic lithium-ion battery during charge and its grey relational analysis[J].Journal of Central South University:Science and Technology(中南大学学报:自然科学版),2013(3):998-1005.
[47]Ji Fenzhu(姬芬竹),Liu Lijun(刘丽君),Yang Shichun(杨世春),Xu Bin(徐斌).Heating generation model and heat dissipation performance of the power battery in electric vehicle[J].Journal of Beijing University of Aeronautics and Astronautics(北京航空航天大学学报),2014(1):18-24.
[48]Laman F C,Gee M A,Denovan J.Impedance studies for separators in rechargeable lithium batteries[J].The Electrochemical Society,1993(140):51-53.
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