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锂离子电池多尺度数值模型的应用现状及发展前景

程昀 李劼 贾明 汤依伟 杜双龙 艾立华 殷宝华 艾亮

引用本文:
Citation:

锂离子电池多尺度数值模型的应用现状及发展前景

程昀, 李劼, 贾明, 汤依伟, 杜双龙, 艾立华, 殷宝华, 艾亮

Application status and future of multi-scale numerical models for lithium ion battery

Cheng Yun, Li Jie, Jia Ming, Tang Yi-Wei, Du Shuang-Long, Ai Li-Hua, Yin Bao-Hua, Ai Liang
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  • 锂离子电池是一种较为复杂的电化学系统, 其涵盖质量传递、电荷传递、热量传递以及多种电化学反应等物理化学过程. 其不仅物理尺度跨越大, 从微观活性颗粒、极片、电芯跨越到电池模组, 还面临着成组配对以及均衡性的问题, 这些问题加剧了电池设计和性能综合评估的难度. 通过计算机数值仿真技术, 建立数学模型, 全面和系统地捕捉电池工作过程各物理场的相互作用机理, 分析其演化规律, 能够为优化电池系统设计提供理论支撑. 本文对锂离子电池的数值模型研究进展和发展趋势进行了综述. 同时对主要理论模型进行了分类整理, 总结了它们的特点、适用范围和局限性, 指出了将来进一步研究的方向和难点所在, 这些对锂离子电池多尺度数值模型的理论研究和工程应用都具有指导性的意义.
    Lithium ion battery is nowadays one of the most popular energy storage devices due to its high energy, power density and cycle life characteristics. It has been known that the overall performance of battery depends on not only electrolyte and electrode materials, but also operation condition and choice of physical parameters. Designers need to understand the thermodynamic and kinetic characteristics of battery, which is costly and time-consuming by experimental methods. However, lithium ion battery is a complicated electrochemical system with multi physicochemical processes including the mass, charge, and energy conservations as well as the electrochemical kinetics. It not only has a typical multiple level arrangement: across the electrode level, cell level, and extending to the battery module level, which is different from the basic active material particle level arrangement, but also confronts the challenges to meeting the requirements for sorting and consistency method for battery. These facts increase the difficulties in designing the battery and evaluating the overall performance. Owing to the rapid development of multi-scale numerical simulation technology, the multi-scale mathematical models for lithium ion battery are developed to help battery designer comprehensively and systematically gain the interaction mechanisms between different physicochemical fields in the battery working process and analyze the regulations of these interaction mechanisms, which is significant in providing theoretical supports for designing and optimizing the battery systems. At present, multi-type lithium ion battery models coupled with many physicochemical processes have been developed on different scales to study different issues, such as thermal behavior, inner polarization, micro structure, inner stress and capacitance fading, etc. In this paper, we review the research statuses and development trends of multi-scale mathematical models for lithium ion battery. The primary theoretical models for lithium ion battery are systemized and their features, application ranges and limitations are also summarized. Furthermore, the future research area and the difficulty in industry application are discussed. All of these are helpful for the theoretic research and engineering application of the multi-scale numerical models for lithium ion battery.
      通信作者: 贾明, jiamingsunmoon@aliyun.com
    • 基金项目: 国家自然科学基金(批准号: 51204211)、中南大学博士研究生自主探索创新项目(批准号: 2015zzts033)和湖南省科技计划(批准号: 2014ZK3080)资助的课题.
      Corresponding author: Jia Ming, jiamingsunmoon@aliyun.com
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 51204211), the Fundamental Research Funds for the Central Universities of Central South University (Grant No. 2015zzts033), and the Science and Technology Program of Hunan Province, China (Grant No. 2014ZK3080).
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  • [1]

    Lu L G, Han X B, Li J Q, Hua J F, Ouyang M G2013 J. Power Sources 226 272

    [2]

    Rao Z H, Wang S F 2011 Renew Sust. Energ. Rev. 15 4554

    [3]

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    [4]

    Tang Y W, Jia M, Li J, Lai Y Q, Cheng Y, Liu Y X 2014 J. Electrochem. Soc. 161 E3021

    [5]

    Franco A A 2013 RSC Advances 3 13027

    [6]

    Feng Y 2008 Ph. D. Dissertation (Beijing: University of Chinese Academy of Sciences) (in Chinese) [冯毅 2008 博士学位论文 (北京: 中国科学院研究生院)]

    [7]

    Buller S, Thele M, De Doncker R W A A, Karden E 2005 IEEE T. Ind. Appl. 41 742

    [8]

    Karden E, Mauracher P, Schöpe F 1997 J. Power Sources 64 175

    [9]

    Gomez J, Nelson R, Kalu E E, Weatherspoon M H, Zheng J P 2011 J. Power Sources 196 4826

    [10]

    Cho S, Jeong H, Han C, Jin S, Lim J H, Oh J 2012 Computers & Amp; Chemical Engineering 4 1

    [11]

    Hu X, Li S, Peng H 2012 J. Power Sources 198 359

    [12]

    Wang Z P, Liu P, Wang L 2013 Chin. Phys. B 22 088801

    [13]

    Xu L, Wang J P, Chen Q S 2012 Energy Conversion and Management 53 33

    [14]

    Fang K, Mu D, Chen S, Wu B, Wu F 2012 J. Power Sources 208 378

    [15]

    Capizzi G, Bonanno F, Tina G M 2011 IEEE T. Energy Conver 26 435

    [16]

    Bi J, Shao S, Guan W, Wang L 2012 Chin. Phys. B 21 118801

    [17]

    Brand J, Zhang Z, Agarwal R K 2014 J. Power Sources 247 729

    [18]

    Forman J C, Moura S J, Stein J L, Fathy H K 2012 J. Power Sources 210 263

    [19]

    Shi J X, Xue X J 2011 J. Electrochem. Soc. 158 B143

    [20]

    Yann Liaw B, Nagasubramanian G, Jungst R G, Doughty D H 2004 Solid State Ionics 175 835

    [21]

    Chiang Y H, Sean W Y, Ke J C 2011 J. Power Sources 196 3921

    [22]

    Kim T, Qiao W 2011 IEEE T. Energy Conver 26 1172

    [23]

    Cho S, Jeong H, Han C, Jin S, Lim J H, Oh J 2012 Comput Chem. Eng. 41 1

    [24]

    Daniel C, Besenhard J O 2011 Handbook of Battery Materials Second Edition (Weinheim: Wiley-VCH) pp844

    [25]

    Bernardi D, Pawlikowski E, Newman J 1985 J. Electrochem. Soc. 132 5

    [26]

    Kim U S, Shin C B, Kim C S 2009 J. Power Sources. 189 841

    [27]

    Lee J, Choi K W, Yao N P, Christianson C C 1986 J. Electrochem. Soc. 133 1286

    [28]

    Gu W B, Wang C Y 2000 J. Electrochem. Soc. 147 2910

    [29]

    Guo G F, Long B, Cheng B, Zhou S Q, Xu P, Cao B G 2010 J. Power Sources 195 2393

    [30]

    Lee K-J, Smith K, Pesaran A, Kim G-H 2013 J. Power Sources 241 20

    [31]

    Guo M, Kim G-H, White R E 2013 J. Power Sources 240 80

    [32]

    Jeon D H, Baek S M 2011 Energy Convers. Manage. 52 2973

    [33]

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    [34]

    Newman J, Tiedemann W 1975 AIChE Journal 21 25

    [35]

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    [36]

    Doyle M, Newman J, Gozdz A S, Schmutz C N, Tarascon J M 1996 J. Electrochem. Soc. 143 1890

    [37]

    Rao L, Newman J 1997 J. Electrochem. Soc. 144 2697

    [38]

    Zhang Q, Guo Q Z, White R E 2007 J. Power Sources 165 427

    [39]

    Zhang Q, White R E 2007 J. Electrochem. Soc. 154 A587

    [40]

    Srinivasan V, Newman J 2004 J. Electrochem. Soc. 151 A1517

    [41]

    Srinivasan V, Newman J 2004 J. Electrochem. Soc. 151 A1530

    [42]

    Ye Y H, Shi Y X, Tay A A O 2012 J. Power Sources 217 509

    [43]

    Saw L H, Ye Y, Tay A A O 2013 Energy Convers. Manage 75 162

    [44]

    Safari M, Delacourt C 2011 J. Electrochem. Soc. 158 A562

    [45]

    Li J, Cheng Y, Jia M, Tang Y, Lin Y, Zhang Z, Liu Y 2014 J. Power Sources 255 130

    [46]

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    [47]

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    [48]

    Li J, Cheng Y, Ai L H, Jia M, Du S L, Yin B H, Woo S, Zhang H L 2015 J. Power Sources 293 993

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    Du S L, Jia M, Cheng Y, Tang Y W, Zhang H L, Ai L H, Zhang K, Lai Y Q 2015 Int. J. Therm. Sci. 89 327

    [50]

    Tang Y W, Jia M, Cheng Y, Zhang K, Zhang H L, Li J 2013 Acta Phys. Sin. 62 158201 (in Chinese) [汤依伟, 贾明, 程昀, 张凯, 张红亮, 李劼 2013 物理学报 62 158201]

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    [52]

    Xun J Z, Liu R, Jiao K 2013 J. Power Sources 233 47

    [53]

    Xu X M, He R 2013 J. Power Sources 240 33

    [54]

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    [55]

    Zavalis T G, Klett M, Kjell M H, Behm M, Lindström R W, Lindbergh G 2013 Electrochim. Acta 110 335

    [56]

    Bohn E, Eckl T, Kamlah M, McMeeking R 2013 J. Electrochem. Soc. 160 A1638

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    [60]

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    Huang L, Li Jian Y 2015 Acta Phys. Sin. 64 108202 (in Chinese) [黄亮, 李建远 2015 物理学报 64 108202]

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    [73]

    Goldin G M, Colclasure A M, Wiedemann A H, Kee R 2012 J Electrochim. Acta 64 118

    [74]

    Gupta A, Seo J H, Zhang X, Du W, Sastry A M, Shyy W 2011 J. Electrochem. Soc. 158 A487

    [75]

    Garcia R E, Chiang Y M, Carter W C, Limthongkul P, Bishop C M 2005 J. Electrochem. Soc. 152 A255

    [76]

    Zeng J B, Jiang F M 2013 Acta Phys. Chim. Sin. 29 2371 (in Chinese) [曾建邦, 蒋方明 2013 物理化学学报 29 2371]

    [77]

    Smith M, García R E, Horn Q C 2009 J. Electrochem. Soc. 156 A896

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    Wargo E A, Kotaka T, Tabuchi Y, Kumbur E C 2013 J. Power Sources 241 608

    [79]

    Wilson J R, Cronin J S, Barnett S A, Harris S J 2011 J. Power Sources 196 3443

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    Stephenson D E, Walker B C, Skelton C B, Gorzkowski E P, Rowenhorst D J, Wheeler D R 2011 J. Electrochem. Soc. 158 A781

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    Ender M, Joos J, Carraro T, Ivers-Tiffée E 2012 J. Electrochem. Soc. 159 A972

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    Wu W, Jiang F M, Chen Z, Wang Y, Zhao F G, ZENG Y Q 2013 J Inorg Mater 28 1243 (in Chinese) [吴伟, 蒋方明, 陈治, 汪颖, 赵丰刚, 曾毓群 2013 无机材料学报 28 1243]

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    Hutzenlaub T, Asthana A, Becker J, Wheeler D R, Zengerle R, Thiele S 2013 Electrochem Commun. 27 77

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    Hutzenlaub T, Thiele S, Paust N, Spotnitz R, Zengerle R, Walchshofer C 2014 Electrochim. Acta 115 131

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出版历程
  • 收稿日期:  2015-06-22
  • 修回日期:  2015-09-22
  • 刊出日期:  2015-11-05

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