2024
[150] D. Qiao et al., "Data-Driven Fault Diagnosis of Internal Short Circuit for Series-Connected Battery Packs Using Partial Voltage Curves," in IEEE Transactions on Industrial Informatics, vol. 20, no. 4, pp. 6751-6761, April 2024, doi: 10.1109/TII.2024.3353872.
[149] Quanwei Chen, Xin Lai, Junjie Chen, Yunfeng Huang, Yi Guo, Yanan Wang, Xuebing Han, Languang Lu, Yuedong Sun, Minggao Ouyang, Yuejiu Zheng,A critical comparison of LCA calculation models for the power lithium-ion battery in electric vehicles during use-phase,Energy,Volume 296,2024,131175,ISSN 0360-5442,https://doi.org/10.1016/j.energy.2024.131175.
[148] Yuxin Shao, Yuejiu Zheng, Jiani Zhang, Xuebing Han, Bei Jin, Yuedong Sun,A cloud capacity estimation method for electric vehicle lithium-ion battery independent of cloud SOC,Journal of Energy Storage,Volume 85,2024,110998,ISSN 2352-152X,
[146] Hang Wu, Siqi Chen, Yan Hong, Chengshan Xu, Yuejiu Zheng, Changyong Jin, Kaixin Chen, Yafei He, Xuning Feng, Xuezhe Wei, Haifeng Dai,Thermal safety boundary of lithium-ion battery at different state of charge,Journal of Energy Chemistry,Volume 91,2024,Pages 59-72,ISSN 2095-4956,https://doi.org/10.1016/j.jechem.2023.11.030.
[145] Yiyu Wang, Xin Lai, Quanwei Chen, Xuebing Han, Languang Lu, Minggao Ouyang, Yuejiu Zheng,Progress and challenges in ultrasonic technology for state estimation and defect detection of lithium-ion batteries,Energy Storage Materials,Volume 69,2024,103430,ISSN 2405-8297,https://doi.org/10.1016/j.ensm.2024.103430.
[144] Dawei Li, Hongfei Wan, Jiahui Liu, Hainan Jiang, Yikai Wang, Junqian Zhang, Yuejiu Zheng,Effects of calendering state on coupled electrochemical-mechanical performance of silicon based composite electrodes,Green Energy and Intelligent Transportation,2024,100154,ISSN 2773-1537,https://doi.org/10.1016/j.geits.2024.100154.
[143] Xingguang Chen, Tao Sun, Xin Lai, Yuejiu Zheng, Xuebing Han,Transfer learning strategies for lithium-ion battery capacity estimation under domain shift differences,Journal of Energy Storage,Volume 90, Part A,2024,111860,ISSN 2352-152X,https://doi.org/10.1016/j.est.2024.111860.
[142] Dongdong Qiao, Xuezhe Wei, Jiangong Zhu, Xueyuan Wang, Bo Jiang, Wenjun Fan, Gang Wei, Guangshuai Han, Xin Lai, Yuejiu Zheng, Haifeng Dai,Unraveling the mechanism of non-uniform lithium deposition in liquid electrolytes,Cell Reports Physical Science,2024,101961,ISSN 2666-3864,https://doi.org/10.1016/j.xcrp.2024.101961.
[141] Kai Shen, Lianjie Chen, Xuning Feng, Yuejiu Zheng, Yuedong Sun, Chengshan Xu, Huaibin Wang, Changyong Jin, Xuebing Han, Xin Lai, Xinzhe Qian,Non-destructive battery fast charging constrained by lithium plating and high temperature limit based on simulation,Journal of Energy Storage,Volume 84, Part B,2024,110896,ISSN 2352-152X,https://doi.org/10.1016/j.est.2024.110896.
[140] Jianguo Chen, Xuebing Han, Tao Sun, Yuejiu Zheng,Analysis and prediction of battery aging modes based on transfer learning,Applied Energy,Volume 356,2024,122330,ISSN 0306-2619,https://doi.org/10.1016/j.apenergy.2023.122330.
[139] Chaoqiang Chen, Yunfeng Huang, Xiaoyuan Yu, Minne Zhang, Xuebing Han, Yuedong Sun, Yuejiu Zheng,Improving the accuracy of voltage estimation in the low charge state range at low temperature: An equivalent circuit model considering the influence of temperature on solid phase diffusion process,Journal of Energy Storage,Volume 88,2024,111577,ISSN 2352-152X,https://doi.org/10.1016/j.est.2024.111577.
[138] Guangying Zhu, Jianguo Chen, Xuyang Liu, Tao Sun, Xin Lai, Yuejiu Zheng, Yue Guo, Rohit Bhagat,Intelligent lithium plating detection and prediction method for Li-ion batteries based on random forest model,Green Energy and Intelligent Transportation,2024,100167,ISSN 2773-1537,https://doi.org/10.1016/j.geits.2024.100167.
2023
[133]Zhou, L., Lai, X., Li, B., Yao, Y., Yuan, M., Weng, J., & Zheng, Y. (2023). State estimation models of lithium-ion batteries for battery management system: status, challenges, and future trends. Batteries, 9(2), 131.
[132] Sun, T; Wang, LY; Ren, DS; Shi, ZH; Chen, J; Zheng, YJ; Feng, XN; Han, XB; Lu, LG; Wang, L; He, XM; Ouyang, MG,Thermal Runaway Characteristics and Modeling of LiFePO4 Power Battery for Electric Vehicles,AUTOMOTIVE INNOVATION,
[131] Wenjun Fan, Dongdong Qiao, Xin Lai, Yuejiu Zheng, Xuezhe Wei, Haifeng Dai,A novel method of quantitative internal short circuit diagnosis based on charging electric quantity in fixed voltage window,Journal of Energy Storage,Volume 70,2023,108096,ISSN 2352-152X,
[130] Zhuchen Yuan, Yue Pan, Huaibin Wang, Shuyu Wang, Yong Peng, Changyong Jin, Chengshan Xu, Xuning Feng, Kai Shen, Yuejiu Zheng, Zhendong Zhang, Minggao Ouyang,Fault data generation of lithium ion batteries based on digital twin: A case for internal short circuit,Journal of Energy Storage,Volume 64,2023,107113,ISSN 2352-152X,
[129] Yan Hong, Yajun Zhang, Cheng Li, Fangman Zhang, Fei Gao, Jie Sheng, Shufa Su, Siqi Chen, Chengshan Xu, Changyong Jin, Huaibin Wang, Yuejiu Zheng, Hewu Wang, Xuning Feng, Minggao Ouyang,High-security prismatic battery with cover filled agent,Journal of Energy Storage,Volume 64,2023,107133,ISSN 2352-152X,
[128] Xin Lai, Long Zhou, Zhiwei Zhu, Yuejiu Zheng, Tao Sun, Kai Shen,Experimental investigation on the characteristics of coulombic efficiency of lithium-ion batteries considering different influencing factors,Energy,Volume 274,2023,127408,ISSN 0360-5442,
[127] Xin Lai, Bin Li, Xiaopeng Tang, Yuanqiang Zhou, Yuejiu Zheng, Furong Gao,A quantitative method for early-stage detection of the internal-short-circuit in Lithium-ion battery pack under float-charging conditions,Journal of Power Sources,Volume 573,2023,233109,ISSN 0378-7753,
[126] Guan Wang, Yuedong Sun, Kang Pang, Bin Li, Xuebing Han, Yuejiu Zheng,Quantitative diagnosis of the soft short circuit for LiFePO4 battery packs between voltage plateaus,Journal of Energy Storage,Volume 61,2023,106683,ISSN 2352-152X,
[125] Xin Lai, Zheng Meng, Fangnan Zhang, Yong Peng, Weifeng Zhang, Lei Sun, Li Wang, Fei Gao, Jie Sheng, Shufa Su, Yuejiu Zheng, Xuning Feng,Mitigating thermal runaway hazard of high-energy lithium-ion batteries by poison agent,Journal of Energy Chemistry,Volume 83,
2023,Pages 3-15,ISSN 2095-4956,
[124] Guan Wang, Bei Jin, Mingzhu Wang, Yuedong Sun, Yuejiu Zheng, Teng Su,State of charge estimation for “LiFePO4 - LiCoxNiyMn1-x-yO2” hybrid battery pack,Journal of Energy Storage,Volume 65,2023,107345,ISSN 2352-152X,
[123] Changyong Jin, Yuedong Sun, Yuejiu Zheng, Jian Yao, Yu Wang, Xin Lai, Chengshan Xu, Huaibin Wang, Fangshu Zhang, Huafeng Li,Jianfeng Hua, Xuning Feng, Minggao Ouyang,In situ observation of thermal runaway propagation in lithium-ion battery electrodes triggered by high-frequency induction heating,Cell Reports Physical Science,Volume 4, Issue 7,2023,101465,ISSN 2666-3864,
[122] Xin Lai, Junjie Chen, Quanwei Chen, Xuebing Han, Languang Lu, Haifeng Dai, Yuejiu Zheng,Comprehensive assessment of carbon emissions and environmental impacts of sodium-ion batteries and lithium-ion batteries at the manufacturing stage,Journal of Cleaner Production,2023,138674,ISSN 0959-6526,
[121] Xin Lai, Yi Yao, Xiaopeng Tang, Yuejiu Zheng, Yuanqiang Zhou, Yuedong Sun, Furong Gao,Voltage profile reconstruction and state of health estimation for lithium-ion batteries under dynamic working conditions,Energy,2023,128971,ISSN 0360-5442,
[120] Tao Sun, Jianguo Chen, Shaoqing Wang, Quanwei Chen, Xuebing Han, Yuejiu Zheng,Aging mechanism analysis and capacity estimation of lithium - ion battery pack based on electric vehicle charging data,Energy,Volume 283,2023,128457,ISSN 0360-5442.
[119] Guangying Zhu, Tao Sun, Yuwen Xu , Yuejiu Zheng and Long Zhou ,Identification of Internal Short-Circuit Faults in Lithium-Ion Batteries Based on a Multi-Machine Learning Fusion. Batteries 2023, 9, 154.
[118] S. Yao, G. Wang, H. Zhu, Q. Chen, Y. Zheng, Equalization method of ‘LiCoxNiyMn1-x-yO2 - LiFePO4’ hybrid battery pack based on charging electric quantity estimation, J. Energy Stor. 69 (2023).
[117] Z. Zhu, Y. Liu, Z. Zhang, L. Sheng. Studying carbon fiber composite phase change materials: Preparation method, thermal storage analysis and application of battery thermal management, Journal of Power Souce. 67 (2023),107586.
[116] Kunjie Lu, Engang Tian, Licheng Wang. Distributed secure balancing control for battery energy storage systems subject to random denial-of-service attacks. International journal of robust and nonlinear control, 2023, 33(8): 4636-4653.
[115] Cai, H.; Hao, X.; Jiang, Y.; Wang, Y.; Han, X.; Yuan, Y.; Zheng, Y.; Wang, H.; Ouyang, M. Degradation Evaluation of Lithium-Ion Batteries in Plug-In Hybrid Electric Vehicles: An Empirical Calibration. Batteries 2023, 9, 321.
[114] Q. Chen, Y. Hou, X. Lai, K. Shen, H. Gu, Y. Wang, Y. Guo, L. Lu, X. Han, Y. Zheng, Evaluating environmental impacts of different hydrometallurgical recycling technologies of the retired nickel-manganese-cobalt batteries from electric vehicles in China, Separation and Purification Technology, 311 (2023).
[113] Q. Chen, X. Lai, Y. Hou, H. Gu, L. Lu, X. Liu, D. Ren, Y. Guo, Y. Zheng, Investigating the environmental impacts of different direct material recycling and battery remanufacturing technologies on two types of retired lithium-ion batteries from electric vehicles in China, Separation and Purification Technology, 308 (2023).
[112] Q. Chen, X. Lai, J. Chen, Y. Yao, Y. Guo, M. Zhai, X. Han, L. Lu, Y. Zheng, Comparative environmental impacts of different hydrometallurgical recycling and remanufacturing technologies of lithium-ion batteries considering multi-recycling-approach and temporal-geographical scenarios in China, Separation and Purification Technology, 324 (2023).
[111] Wang MZ, Wang G, Xiao ZL, Sun YD, Zheng YJ. “State of Charge Estimation of LiFePO4 in Various Temperature Scenarios”. BATTERIES-BASEL. 2023;9(1).
[110] 来鑫.马云杰.郑岳久.韩雪冰.一种基于几何特征变换与迁移的锂离子电池电化学阻抗谱曲线重构方法
2022
[109] 洪琰, 周龙, 张俊, 李相俊, 汪湘晋, 马瑜涵, & 郑岳久. (2022). 锂离子电池充放电机械压力特性研究. 机械工程学报, 58(20), 410-420.
[108]钱广俊,韩雪冰,卢兰光等.锂离子电池系统均衡策略研究进展[J].机械工程学报,2022,58(24):145-162.
[107 ]刘海东, 周萍, 周正, & 郑岳久. (2022). 锂离子电池开路电压快速估计研究. 机械工程学报, 58(8), 227-235.
[106] Wei, YF; Yao, Y; Pang, K; Xu, CJ; Han, XB; Lu, LG; Li, YL; Qin, YD; Zheng, YJ; Wang, HW; Ouyang, MG,A Comprehensive Study of Degradation Characteristics and Mechanisms of Commercial Li(NiMnCo)O-2 EV Batteries under Vehicle-To-Grid (V2G) Services,BATTERIES-BASEL,2022
[105] Qian, GJ; Zheng, YJ; Lu, YF; Han, XB; Sun, YD; Chen, YJ,On-line equalization for lithium iron phosphate battery packs based on voltage threshold integral,INTERNATIONAL JOURNAL OF ENERGY RESEARCH,2022
[104] Sun, JY; Chen, SQ; Shen, K; Zheng, YJ,Liquid cooling system optimization for a cell-to-pack battery module under fast charging,INTERNATIONAL JOURNAL OF ENERGY RESEARCH,2022
[103] Xu, CJ; Li, LB; Xu, YW; Han, XB; Zheng, YJ,A vehicle-cloud collaborative method for multi-type fault diagnosis of lithium-ion batteries,ETRANSPORTATION,2022
[102] Changyong Jin, Yuedong Sun, Huaibin Wang, Yuejiu Zheng, Shuyu Wang, Xinyu Rui, Chengshan Xu, Xuning Feng, Hewu Wang, Minggao Ouyang,Heating power and heating energy effect on the thermal runaway propagation characteristics of lithium-ion battery module:Experiments and modeling,Applied Energy,Volume 312,2022,118760,ISSN 0306-2619,
[101] Dongdong Qiao, Xuezhe Wei, Wenjun Fan, Bo Jiang, Xin Lai, Yuejiu Zheng, Xiaolin Tang, Haifeng Dai,Toward safe carbon–neutral transportation: Battery internal short circuit diagnosis based on cloud data for electric vehicles,Applied Energy,Volume 317,2022,119168,ISSN 0306-2619
[100] Tao Sun, Shaoqing Wang, Sheng Jiang, Bowen Xu, Xuebing Han, Xin Lai, Yuejiu Zheng,A cloud-edge collaborative strategy for capacity prognostic of lithium-ion batteries based on dynamic weight allocation and machine learning,Energy,Volume 239, Part C,2022,122185,
ISSN 0360-5442,
[99] Tao Sun, Yuwen Xu, Lihong Feng, Bowen Xu, Dizuo Chen, Fang Zhang, Xuebing Han, Lihui Zhao, Yuejiu Zheng,A vehicle-cloud collaboration strategy for remaining driving range estimation based on online traffic route information and future operation condition prediction,Energy,Volume 248,2022,123608,ISSN 0360-5442,
[98] Xiaopeng Tang, Xin Lai, Qi Liu, Yuejiu Zheng, Yuanqiang Zhou, Yunjie Ma, Furong Gao,Predicting battery impedance spectra from 10-second pulse tests under 10 Hz sampling rate,iScience,Volume 26, Issue 6,2023,106821,ISSN 2589-0042,
[97] Kai Shen, Jieyu Sun, Yuejiu Zheng, Chengshan Xu, Huaibin Wang, Shuyu Wang, Siqi Chen, Xuning Feng,A comprehensive analysis and experimental investigation for the thermal management of cell-to-pack battery system,Applied Thermal Engineering,Volume 211,2022,118422,ISSN 1359-4311,
[96] Hang Wu, Siqi Chen, Jie Chen, Changyong Jin, Chengshan Xu, Xinyu Rui, Hungjen Hsu, Yuejiu Zheng, Xuning Feng,
Dimensionless normalized concentration based thermal-electric regression model for the thermal runaway of lithium-ion batteries,Journal of Power Sources,Volume 521,2022,230958,ISSN 0378-7753,
[95] Tao Sun, Tengteng Shen, Yuejiu Zheng, Dongsheng Ren, Wenkuan Zhu, Jian Li, Yuan Wang, Ke Kuang, Xinyu Rui, Shan Wang, Li Wang, Xuebing Han, Languang Lu, Minggao Ouyang,Modeling the inhomogeneous lithium plating in lithium-ion batteries induced by non-uniform temperature distribution,Electrochimica Acta,Volume 425,2022,140701,ISSN 0013-4686,
[94] Xiangdong Kong, Languang Lu, Yuebo Yuan, Yukun Sun, Xuning Feng, Hongxin Yang, Fangnan Zhang, Jianbiao Zhang, Xiaoan Liu, Xuebing Han, Yuejiu Zheng, Minggao Ouyang,Foreign matter defect battery and sudden spontaneous combustion,eTransportation,Volume 12,2022,100170,ISSN 2590-1168,
[93] Changyong Jin, Yuedong Sun, Jian Yao, Xuning Feng, Xin Lai, Kai Shen, Huaibin Wang, Xinyu Rui, Chengshan Xu, Yuejiu Zheng, Languang Lu, Hewu Wang, Minggao Ouyang,No thermal runaway propagation optimization design of battery arrangement for cell-to-chassis technology,eTransportation,Volume 14,2022,100199,ISSN 2590-1168,
[92] Dongdong Qiao, Xueyuan Wang, Xin Lai, Yuejiu Zheng, Xuezhe Wei, Haifeng Dai,Online quantitative diagnosis of
internal short circuit for lithium-ion batteries using incremental capacity method,Energy,Volume 243,2022,123082,ISSN 0360-5442,
[91] Yuejiu Zheng, Zhihe Shi, Dongsheng Ren, Jie Chen, Xiang Liu, Xuning Feng, Li Wang, Xuebing Han, Languang Lu,
Xiangming He, Minggao Ouyang,In-depth investigation of the exothermic reactions between lithiated graphite and
electrolyte in lithium-ion battery,Journal of Energy Chemistry,Volume 69,2022,Pages 593-600,ISSN 2095-4956,
[90]Lai, X.; Yuan, M.; Tang, X.; Yao, Y.; Weng, J.; Gao, F.; Ma, W.; Zheng, Y. Co-Estimation of State-of-Charge and State-of-Health for Lithium-Ion Batteries Considering Temperature and Ageing. Energies 2022, 15, 7416.
[89]Bao, W.; Liu, H.; Sun, Y.; Zheng, Y. A Fast Prediction of Open-Circuit Voltage and a Capacity Estimation Method of a Lithium-Ion Battery Based on a BP Neural Network. Batteries 2022, 8, 289.
[88]王明珠,肖占龙,郑岳久.“不同温度下磷酸铁锂电池的模型参数敏感性分析“[J]. 上海理工大学学报,2022,44(05):449-456.
[87] X. Lai, Q. Chen, X. Tang, Y. Zhou, F. Gao, Y. Guo, R. Bhagat, Y. Zheng, Critical review of life cycle assessment of lithium-ion batteries for electric vehicles: A lifespan perspective, eTransportation, 12 (2022).
[86] 来鑫, 陈权威, 顾黄辉, 韩雪冰, 郑岳久, 面向“双碳”战略目标的锂离子电池生命周期评价:框架、方法与进展, 机械工程学报, 58 (2022) 3-18.
[85] 来鑫, 陈权威, 邓聪, 韩雪冰, 郑岳久, 一种基于电化学阻抗谱的大规模退役锂离子电池的软聚类方法, 电工技术学报, 37 (2022) 6054-6064.
[84] Q. Chen, X. Lai, H. Gu, X. Tang, F. Gao, X. Han, Y. Zheng, Investigating carbon footprint and carbon reduction potential using a cradle-to-cradle LCA approach on lithium-ion batteries for electric vehicles in China, Journal of Cleaner Production, 369 (2022).
[83] Chen F, Zhu W, Kong X, et al. Study on the Homogeneity of Large-Size Blade Lithium-Ion Batteries Based on Thermoelectric Coupling Model Simulation. Energies. 2022;15(24).
[82] 陈飞 ,孔祥栋,孙跃东,韩雪冰,卢兰光,郑岳久 ,欧阳明高.锂离子电池制造工艺仿真技术进展[J].汽车工程
[81] J. Dai et al., “Digital Twin for Air Conditioning Systems Based on Electric Vehicle Operating Data,” 2022 5th International Conference on Computing and Big Data (ICCBD), Shanghai, China, 2022, pp. 44-49
[80] Lai X, Deng C, Tang X, Gao F, Han X, Zheng Y. Soft clustering of retired lithium-ion batteries for the secondary utilization using Gaussian mixture model based on electrochemical impedance spectroscopy. Journal of Cleaner Production. 2022;339.
[79] Lai X, Gu H, Chen Q, Tang X, Zhou Y, Gao F, Han X, Guo Y, Bhagat R, Zheng Y. Investigating greenhouse gas missions and environmental impacts from the production of lithium-ion batteries in China. Journal of Cleaner Production. 2022;372.
[78] Wu L, Pang K, Zheng Y, Huang P, Chen Y. A multi-module equalization system for lithium-ion battery packs. International Journal of Energy Research. 2022;46:2771-2782.
[77] Zheng Y, Luo Q, Cui Y, Dai H, Han X, Feng X. Fault Identification and Quantitative Diagnosis Method for Series-Connected Lithium-Ion Battery Packs Based on Capacity Estimation. Ieee Transactions on Industrial Electronics. 2022;69:3059-3067.
[76] Chaojie Xu, Laibao Li, Yuwen Xu, Xuebing Han, Yuejiu Zheng,A vehicle-cloud collaborative method for multi-type fault diagnosis of lithium-ion batteries,eTransportation,Volume 12,2022,100172,ISSN 2590-1168
[75] Xin Lai, Jiahui Weng, Yunfeng Huang, Ming Yuan, Yi Yao, Xuebing Han, Yuejiu Zheng,A joint state-of-health and state-of-energy estimation method for lithium-ion batteries through combining the forgetting factor recursive least squares and unscented Kalman filter,Measurement,Volume 205,2022,112187,ISSN 0263-2241,
[74] Xin Lai, Yunfei Li, Ruqing Fang, Peng Dong, Yuejiu Zheng, Zhe Li,Experimental investigation of the influence of electrolyte loss and replenishment on the critical performances of cylindrical lithium-ion cells,Journal of Energy Storage,Volume 52, Part B,2022,104951,ISSN 2352-152X,
[73] Yuejiu Zheng, Anqi Shen, Xuebing Han, Minggao Ouyang,Quantitative short circuit identification for single lithium-ion cell applications based on charge and discharge capacity estimation,Journal of Power Sources,Volume 517,2022,230716,ISSN 0378-7753,
[72] Xin Lai, Yunfeng Huang, Huanghui Gu, Xuebing Han, Xuning Feng, Haifeng Dai, Yuejiu Zheng, Minggao Ouyang,Remaining discharge energy estimation for lithium-ion batteries based on future load prediction considering temperature and ageing effects,Energy,Volume 238, Part A,2022,121754,ISSN 0360-5442,
2021
[71]Liu, JH; Chu, ZY; Li, HL; Ren, DS; Zheng, YJ; Lu, LG; Han, XB; Ouyang, MG,Lithium-plating-free fast charging of large-format lithium-ion batteries with reference electrodes,INTERNATIONAL JOURNAL OF ENERGY RESEARCH,2021
[70] Wu, Y; Ren, DS; Liu, X; Xu, GL; Feng, XN; Zheng, YJ; Li, YL; Yang, M; Peng, Y; Han, XB; Wang, L; Chen, ZH; Ren, Y; Lu, LG; He, XM; Chen, JT; Amine, K; Ouyang, MG,High-Voltage and High-Safety Practical Lithium Batteries with Ethylene Carbonate-Free Electrolyte,ADVANCED ENERGY MATERIALS,2021
[69] Tao Sun, Renjie Wu, Yifan Cui, Yuejiu Zheng,Sequent extended Kalman filter capacity estimation method for lithium-ion batteries based on discrete battery aging model and support vector machine,Journal of Energy Storage,Volume 39,2021,102594,ISSN 2352-152X,
[68] Xin Lai, Yunfeng Huang, Cong Deng, Huanghui Gu, Xuebing Han, Yuejiu Zheng, Minggao Ouyang,Sorting, regrouping, and echelon utilization of the large-scale retired lithium batteries: A critical review,Renewable and Sustainable Energy Reviews,Volume 146,2021,111162,ISSN 1364-0321,
[67] Yu Wu, Xuning Feng, Xiang Liu, Xuefeng Wang, Dongsheng Ren, Li Wang, Min Yang, Yongling Wang, Weifeng Zhang, Yalun Li, Yuejiu Zheng, Languang Lu, Xuebing Han, Gui-Liang Xu, Yang Ren, Zonghai Chen, Jitao Chen, Xiangming He, Khalil Amine, Minggao Ouyang,In-built ultraconformal interphases enable high-safety practical lithium batteries,Energy Storage Materials,Volume 43,2021,Pages 248-257,ISSN 2405-8297,
[66] Yuejiu Zheng, Yifan Cui, Xuebing Han, Haifeng Dai, Minggao Ouyang,Lithium-ion battery capacity estimation based on open circuit voltage identification using the iteratively reweighted least squares at different aging levels,Journal of Energy Storage,Volume 44, Part B,2021,103487,ISSN 2352-152X,
[65] Xin Lai, Shuyu Wang, Huaibin Wang, Yuejiu Zheng, Xuning Feng,Investigation of thermal runaway propagation characteristics of lithium-ion battery modules under different trigger modes,International Journal of Heat and Mass Transfer,Volume 171,2021,121080,ISSN 0017-9310,
[64] Yong Zhou, Huanghui Gu, Teng Su, Xuebing Han, Languang Lu, Yuejiu Zheng,Remaining useful life prediction with
probability distribution for lithium-ion batteries based on edge and cloud collaborative computation,Journal of Energy Storage,Volume 44, Part A,2021,103342,ISSN 2352-152X,
[63] Tao Sun, Bowen Xu, Yifan Cui, Xuning Feng, Xuebing Han, Yuejiu Zheng,A sequential capacity estimation for the lithium-ion batteries combining incremental capacity curve and discrete Arrhenius fading model,Journal of Power Sources,Volume 484,2021,229248,ISSN 0378-7753,
[62] Xueyuan Wang, Xuezhe Wei, Jiangong Zhu, Haifeng Dai, Yuejiu Zheng, Xiaoming Xu, Qijun Chen,A review of modeling, acquisition, and application of lithium-ion battery impedance for onboard battery management,eTransportation,Volume 7,2021,100093,ISSN 2590-1168,
[61] Yuejiu Zheng, Yifan Cui, Xuebing Han, Minggao Ouyang,A capacity prediction framework for lithium-ion batteries using fusion prediction of empirical model and data-driven method,Energy,Volume 237,2021,121556,ISSN 0360-5442,
[60] Xin Lai,Zheng Meng, Shuyu Wang, Xuebing Han, Long Zhou, Tao Sun, Xiangjun Li, Xiangjin Wang, Yuhan Ma, Yuejiu Zheng,Global parametric sensitivity analysis of equivalent circuit model based on Sobol’method for lithium-ion batteries in electric vehicle,Journal of Cleaner Production,Volume 294,2021,126246,ISSN 0959-6526,
[59] Xin Lai, Yunfeng Huang, Xuebing Han, Huanghui Gu, Yuejiu Zheng,A novel method for state of energy estimation of lithium-ion batteries using particle filter and extended Kalman filter,Journal of Energy Storage,Volume 43,2021,103269,ISSN 2352-152X,
[58] Xin Lai, Wei Yi, Yifan Cui, Chao Qin, Xuebing Han, Tao Sun, Long Zhou, Yuejiu Zheng,Capacity estimation of lithium-ion cells by combining model-based and data-driven methods based on a sequential extended Kalman filter,Energy,Volume 216,2021,119233,ISSN 0360-5442,
[57] Yuejiu Zheng, Zhihe Shi, Dongxu Guo, Haifeng Dai, Xuebing Han,A simplification of the time-domain equivalent circuit model for lithium-ion batteries based on low-frequency electrochemical impedance spectra,Journal of Power Sources,Volume 489,2021,229505,ISSN 0378-7753,
[56] Xin Lai, Changyong Jin, Wei Yi, Xuebing Han, Xuning Feng, Yuejiu Zheng, Minggao Ouyang,Mechanism, modeling, detection, and prevention of the internal short circuit in lithium-ion batteries: Recent advances and perspectives,Energy Storage Materials,Volume 35,
2021,Pages 470-499,ISSN 2405-8297,
[55] Jin C, Sun Y, Wang H, Lai X, Wang S, Chen S, Rui X, Zheng Y, Feng X, Wang H, Ouyang M. Model and experiments to investigate thermal runaway characterization of lithium-ion batteries induced by external heating method. Journal of Power Sources. 2021;504.
[54] Jin C, Sun Y, Zheng Y, Yang X, Lai X, Gu H, Feng X. Experimental investigation of state-of-power measurement for lithium-ion batteries. International Journal of Energy Research. 2021;45:7549-7560.
[53] Lai X, Deng C, Li J, Zhu Z, Han X, Zheng Y. Rapid Sorting and Regrouping of Retired Lithium-Ion Battery Modules for Echelon Utilization Based on Partial Charging Curves. Ieee Transactions on Vehicular Technology. 2021;70:1246-1254.
[52] Lai X, Huang Y, Gu H, Deng C, Han X, Feng X, Zheng Y. Turning waste into wealth: A systematic review on echelon utilization and material recycling of retired lithium-ion batteries. Energy Storage Materials. 2021;40:96-123.
[51] Lai X, Yi W, Li H, Han X, Feng X, Li S, Zhou L, Zheng Y. Online internal short circuit detection method considering equalization electric quantity for lithium-ion battery pack in electric vehicles. International Journal of Energy Research. 2021;45:7326-7340.
[50] Sun T, Jiang S, Li X, Cui Y, Lai X, Wang X, Ma Y, Zheng Y. A Novel Capacity Estimation Approach for Lithium-Ion Batteries Combining Three-Parameter Capacity Fade Model With Constant Current Charging Curves. Ieee Transactions on Energy Conversion. 2021;36:2574-2584.
[49] Zhao T, Zheng Y, Liu J, Zhou X, Chu Z, Han X. A study on half-cell equivalent circuit model of lithium-ion battery based on reference electrode. International Journal of Energy Research. 2021;45:4155-4169.
[48] Zheng Y, Lu Y, Gao W, Han X, Feng X, Ouyang M. Micro-Short-Circuit Cell Fault Identification Method for Lithium-Ion Battery Packs Based on Mutual Information. Ieee Transactions on Industrial Electronics. 2021;68:4373-4381.
2020
[47]Xin Lai, Long He, Shuyu Wang, Long Zhou, Yinfan Zhang, Tao Sun, Yuejiu Zheng,Co-estimation of state of charge and state of power for lithium-ion batteries based on fractional variable-order model,Journal of Cleaner Production,Volume 255,2020,120203,ISSN 0959-6526,
[46] Lu, YF; Li, K; Han, XB; Feng, XN; Chu, ZY; Lu, LG; Huang, PF; Zhang, Z; Zhang, YS; Yin, FQ; Wang, X; Dai, F; Ouyang, MG; Zheng, YJ,A method of cell-to-cell variation evaluation for battery packs in electric vehicles with charging cloud data,ETRANSPORTATION,2023
[45] Xin Lai, Wei Yi, Xiangdong Kong, Xuebing Han, Long Zhou, Tao Sun, Yuejiu Zheng,Online detection of early stage internal short circuits in series-connected lithium-ion battery packs based on state-of-charge correlation,Journal of Energy Storage,Volume 30,2020,101514,ISSN 2352-152X,
[44] Yifan Lu, Kai Li, Xuebing Han, Xuning Feng, Zhengyu Chu, Languang Lu, Peifeng Huang, Zhi Zhang, Yongsheng Zhang, Fuqiang Yin, Xiao Wang, Feng Dai, Minggao Ouyang, Yuejiu Zheng,A method of cell-to-cell variation evaluation for battery packs in electric vehicles with charging cloud data,eTransportation,Volume 6,2020,100077,ISSN 2590-1168,
[43] Zheng Zhou, Yifan Cui, Xiangdong Kong, Jiaqi Li, Yuejiu Zheng,A fast capacity estimation method based on open circuit voltage estimation for LiNixCoyMn1-x-y battery assessing in electric vehicles,Journal of Energy Storage,Volume 32,2020,101830,ISSN 2352-152X,
[42] Ping Zhou, Zhonglin He, Tingting Han, Xiangjun Li, Xin Lai, Liqin Yan, Tiaolin Lv, Jingying Xie, Yuejiu Zheng,A rapid classification method of the retired LiCoxNiyMn1−x−yO2 batteries for electric vehicles,Energy Reports,Volume 6,2020,Pages 672-683,ISSN 2352-4847,
[41] Xin Lai, Shuyu Wang, Shangde Ma, Jingying Xie, Yuejiu Zheng,Parameter sensitivity analysis and simplification of equivalent circuit model for the state of charge of lithium-ion batteries,Electrochimica Acta,Volume 330,2020,135239,ISSN 0013-4686,
[40] Li K, Zhou P, Lu Y, Han X, Li X, Zheng Y. Battery life estimation based on cloud data for electric vehicles. Journal of Power Sources. 2020;468.
[39] Yifan Z, Tao S, Yuejiu Z, Xin L. A comparative study of integral order and fractional order models for estimating state-of-charge of lithium-ion battery. International Journal of Powertrains. 2020;9:38-58.
[38] Zheng Y, Wu H, Yi W, Lai X, Dai H, Han X, Ouyang M. A novel classification method of commercial lithium-ion battery cells based on fast and economic detection of self-discharge rate. Journal of Power Sources. 2020;478.
[37] Zhou L, He L, Zheng Y, Lai X, Ouyang M, Lu L. Massive battery pack data compression and reconstruction using a frequency division model in battery management systems. Journal of Energy Storage. 2020;28.
[36] Zhou L, Xing L, Zheng Y, Lai X, Su J, Deng C, Sun T. A study of external surface pressure effects on the properties for lithium-ion pouch cells. International Journal of Energy Research. 2020;44:6778-6791.
[35] Zhou L, Zheng Y, Ouyang M, Lu L. A simulation study on parameter variation effects in battery packs for electric vehicles. Conference A simulation study on parameter variation effects in battery packs for electric vehicles, Beijing Inst Technol, Beijing, PEOPLES R CHINA vol. 105. 2017.
[34] Zhu Z, Zheng Y, Lai X, Feng X, Li X. A novel fast estimation and regroup method of retired lithium-ion battery cells. International Journal of Energy Research. 2020;44:11985-11997.
2019
[33] Xuebing Han, Languang Lu, Yuejiu Zheng, Xuning Feng, Zhe Li, Jianqiu Li, Minggao Ouyang,A review on the key issues of the lithium ion battery degradation among the whole life cycle,eTransportation,Volume 1,2019,100005,ISSN 2590-1168,
[32] W.K. Gao, Y.J. Zheng*, M.G. Ouyang, J.Q. Li, X. Lai, X.S. Hu, Micro-Short-Circuit Diagnosis for Series-Connected Lithium-Ion Battery Packs Using Mean-Difference Model, Ieee T Ind Electron, 66 (2019) 2132-2142. (SCI: IF: 7.05)
[31] Y.J. Zheng*,J.J.Wang, C.Qin, L.G.Lu, X.B.Han, M.G. Ouyang, A novel capacity estimation method based on charging curve sections for lithium-ion batteries in electric vehicles,Energy, 185 (2019) 361-371. (SCI: IF:5.537 )
[30] Xin Lai, Wenkai Gao, Yuejiu Zheng, et al. A comparative study of global optimization methods for parameter identification of different equivalent circuit models for Li-ion batteries[J], Electrochimica Acta, 2019, 295: 1057-1066. (SCI:IF: 5.116)
[29]Xin Lai, Dongdong Qiao, Yuejiu Zheng, Minggao Ouyang, Xuebing Han, Long Zhou. A rapid screening and regrouping approach based on neural networks for large-scale retired lithium-ion cells in second-use applications[J]. Journal of Cleaner Production, 2019, 213: 776-791.(SCI:IF:5.651)
[28]Yuejiu Zheng, Chao Qin, Xin Lai, Xuebing Han, Yi Xie. A novel capacity estimation method for lithium-ion batteries using fusion estimation of charging curve sections and discrete Arrhenius aging model[J]. Applied energy, 2019, 251: 113327.(SCI:IF:8.426)
[27] Zhang Z, Kong X, Zheng Y, Zhou L, Lai X. Real-time diagnosis of micro-short circuit for Li-ion batteries utilizing low-pass filters. Energy. 2019;166:1013-1024.
[26] Zheng Y, Gao W, Han X, Ouyang M, Lu L, Guo D. An accurate parameters extraction method for a novel on-board battery model considering electrochemical properties. Journal of Energy Storage. 2019;24.
2018
[25] Y.J. Zheng*, M.G. Ouyang**, X.B. Han, L.G. Lu, J.Q. Li, Investigating the error sourcesof the online state of charge estimation methods for lithium-ion batteries in electric vehicles,J Power Sources, 377 (2018) 161-188. (SCI: IF: 6.945, 高被引论文)
[24]Lai, X; Jiang, C; Zheng, YJ; Gao, H; Huang, P; Zhou, L, A Novel Composite Equalizer Based on an Additional Cell for Series-Connected Lithium-Ion Cells,ELECTRONICS,2018
[23]Huang, P; Zheng, YJ; Gao, H; Jiang, C,Design of a Multi-module Cooperative Equalization System for Power Lithium-ion Battery Pack,JOINT INTERNATIONAL CONFERENCE ON ENERGY, ECOLOGY AND ENVIRONMENT ICEEE 2018 AND ELECTRIC AND INTELLIGENT VEHICLES ICEIV 2018,2018
[22] X. Lai, Y.J. Zheng*, T. Sun, A comparative study of different equivalent circuit models for estimating state-of-charge of lithium-ion batteries, Electrochim Acta, 259 (2018) 566-577.(SCI: IF: 5.116)
[21] X.D. Kong, Y.J. Zheng*, M.G. Ouyang, L.G. Lu, J.Q. Li, Z.D. Zhang, Fault diagnosis and quantitative analysis of micro-short circuits for lithium-ion batteries in battery packs, J Power Sources, 395 (2018) 358-368. (SCI: IF: 6.945)
[20] Y.J. Zheng, W.K. Gao, M.G. Ouyang*, L.G. Lu, L. Zhou, X.B. Han, State-of-chargeinconsistency estimation of lithium-ion battery pack using mean-difference model and extended Kalman filter, J Power Sources, 383 (2018) 50-58. (SCI: IF: 6.945)
[19] X. Lai, Y.J. Zheng*, L. Zhou, W.K. Gao, Electrical behavior of overdischarge-induced internal short circuit in lithium-ion cells, Electrochim Acta, 278 (2018) 245-254. (SCI: IF: 5.116)
[18] Xin Lai, Dongdong Qiao, Yuejiu Zheng and Wei Yi. A Novel Screening Method Based on a Partially Discharging Curve Using a Genetic Algorithm and Back-Propagation Model for the Cascade Utilization of Retired Lithium-Ion Batteries[J]. Electronics, 2018, 7(12): 399.(SCI:IF:2.11)
[17] Xin Lai, Dongdong Qiao, Yuejiu Zheng, Long Zhou. A Fuzzy State-Of-Charge Estimation Algorithm Combining Ampere-Hour and an Extended Kalman Filter for Li-Ion Batteries Based on Multi-Model Global Identification[J]. Applied Sciences, 2018, 8(11): 2028.(SCI:IF:1.855)
[16] Lai X, Qin C, Gao W, Zheng Y, Yi W. A State of Charge Estimator Based Extended Kalman Filter Using an Electrochemistry-Based Equivalent Circuit Model for Lithium-Ion Batteries. Applied Sciences-Basel. 2018;8.
[15] Lai X, Yi W, Zheng Y, Zhou L. An All-Region State-of-Charge Estimator Based on Global Particle Swarm Optimization and Improved Extended Kalman Filter for Lithium-Ion Batteries. Electronics. 2018;7.
2017
[14] L. Zhou, Y.J. Zheng*, M.G. Ouyang, L.G. Lu, A study on parameter variation effects onbattery packs for electric vehicles, J Power Sources, 364 (2017) 242-252. (SCI: IF: 6.945)
[13] Long Zhou, Yuejiu Zheng, Minggao Ouyang, Languang Lu,A Simulation Study on Parameter Variation Effects in Battery Packs for Electric Vehicles,Energy Procedia,Volume 105,2017,Pages 4470-4475,ISSN 1876-6102,
[12] X.D. Kong, Y.J. Zheng*, M.G. Ouyang, X.J. Li, L.G. Lu, J.Q. Li, Z.D. Zhang, Signal synchronization for massive data storage in modular battery management system withcontroller area network, Appl Energ, 197 (2017) 52-62. (SCI: IF: 7.9)
2016
[11] Y.J. Zheng, M.G. Ouyang*, X.J. Li, L.G. Lu, J.Q. Li, L. Zhou, Z.D. Zhang, Recording frequency optimization for massive battery data storage in battery management systems, Appl Energ, 183 (2016) 380-389. (SCI: IF: 7.9)
[10] Minggao Ouyang, Shang Gao, Languang Lu, Xuning Feng, Dongsheng Ren, Jianqiu Li, Yuejiu Zheng, Ping Shen,Determination of the battery pack capacity considering the estimation error using a Capacity–Quantity diagram,Applied Energy,Volume 177,2016,Pages 384-392,ISSN 0306-2619,
2015
[9] Y.J. Zheng*, M.G. Ouyang**, L.G. Lu, J.Q. Li, Understanding aging mechanisms in lithium-ion battery packs: From cell capacity loss to pack capacity evolution, J Power Sources, 278 (2015) 287-295. (SCI: IF: 6.945)
[8] Y.J. Zheng*, M.G. Ouyang**, L.G. Lu, J.Q. Li, Z.D. Zhang, X.J. Li, Study on the correlation between state of charge and coulombic efficiency for commercial lithium ion batteries, J Power Sources, 289 (2015) 81-90. (SCI: IF: 6.945)
[7] Minggao Ouyang, Mingxuan Zhang, Xuning Feng, Languang Lu, Jianqiu Li, Xiangming He, Yuejiu Zheng,Internal short circuit detection for battery pack using equivalent parameter and consistency method,Journal of Power Sources,Volume 294,2015,Pages 272-283,ISSN 0378-7753,
2014
[6] Y.J. Zheng, M.G. Ouyang*, L.G. Lu, J.Q. Li, X.B. Han, L.F. Xu, On-line equalization for lithium-ion battery packs based on charging cell voltages: Part 2. Fuzzy logic equalization, J Power Sources, 247 (2014) 460-466. (SCI: IF: 6.945)
[5] Y.J. Zheng, M.G. Ouyang*, L.G. Lu, J.Q. Li, X.B. Han, L.F. Xu, On-line equalization for lithium-ion battery packs based on charging cell voltages: Part 1. Equalization based on remaining charging capacity estimation, J Power Sources, 247 (2014) 676-686. (SCI: IF: 6.945)
[4] Xuebing Han, Minggao Ouyang, Languang Lu, Jianqiu Li, Yuejiu Zheng, Zhe Li,A comparative study of commercial lithium ion battery cycle life in electrical vehicle: Aging mechanism identification,Journal of Power Sources,Volume 251,2014,Pages 38-54,
2013
[3] Y.J. Zheng, L.G. Lu, X.B. Han, J.Q. Li, M.G. Ouyang*, LiFePO4 battery pack capacity estimation for electric vehicles based on charging cell voltage curve transformation, J Power Sources, 226 (2013) 33-41. (SCI: IF: 6.945, 高被引论文)
[2] Y.J. Zheng, M.G. Ouyang*, L.G. Lu, J.Q. Li, X.B. Han, L.F. Xu, H.B. Ma, T.A. Dollmeyer,V. Freyermuth, Cell state-of-charge inconsistency estimation for LiFePO4 battery pack inhybrid electric vehicles using mean-difference model, Appl Energ, 111 (2013) 571-580.(SCI: IF: 7.9)
[1] Y.J. Zheng, X.B. Han, L.G. Lu, J.Q. Li, M.G. Ouyang*, Lithium ion battery pack power fade fault identification based on Shannon entropy in electric vehicles, J Power Sources, 223 (2013) 136-146. (SCI: IF: 6.945)
发明专利
课题截止目前共申请专利153项,授权专利78项
| 序号 | 申请号 | 公开(公告)号 | 发明人 | 发明名称 | 文献类型 | 状态 |
| 1 | CN202311830764.9 | CN117855743A | 周川义; 郑岳久; 刘孝丹; 沈凯; 孙跃东 | 一种烟气热流疏散流道 | 发明 | |
| 2 | CN202311815101.X | CN117790949A | 郑岳久; 汪宇; 陈飞; 朱广英 | 一种基于分极模型的全生命周期无析锂快充方法 | 发明 | |
| 3 | CN202311780727.1 | CN117783899A | 李大伟; 沈宸昊; 刘佳辉; 郑岳久 | 用于锂电池参比电极多场耦合响应的原位测量系统及方法 | 发明 | |
| 4 | CN202311591840.5 | CN117630720A | 来鑫; 于加奇; 郑岳久; 唐晓鹏; 孙跃东 | 一种基于主成分分析的动力电池电池包的电压数据压缩方法 | 发明 | |
| 5 | CN202311591846.2 | CN117872196A | 来鑫; 朱佳俊; 唐晓鹏; 郑岳久; 孙跃东 | 一种基于迁移学习的动力电池电化学阻抗谱在线重构方法 | 发明 | |
| 6 | CN202311354494.9 | CN117572238A | 熊付强; 底翔; 郑岳久; 谢慧思; 朱广英; 汪宇 | 一种析锂检测方法、充电装置、计算机存储介质及控制器 | 发明 | |
| 7 | CN202311318272.1 | CN117590248A | 来鑫; 柯月航; 郑岳久; 唐晓鹏; 朱佳俊; 柯鹏辉 | 一种基于均衡电量的锂离子电池内短路故障定量检测方法 | 发明 | |
| 8 | CN202311160169.9 | CN117192379A | 来鑫; 柯鹏辉; 郑岳久; 朱佳俊; 马云杰 | 一种锂离子电池电化学交流阻抗谱重构方法 | 发明 | |
| 9 | CN202311126837.6 | CN117013141A | 沈凯; 凌羽嘉; 戴劲; 郑岳久; 来鑫 | 一种用于动力电池的分布式冷却系统 | 发明 | |
| 10 | CN202311126919.0 | CN117013118A | 郑岳久; 张学; 汪宇; 王树茂; 吴震轩; 张凯; 孙跃东 | 一种基于参比电极标定无析锂快充电流的方法 | 发明 | |
| 11 | CN202311121490.6 | CN117171640A | 来鑫; 朱佳俊; 唐晓鹏; 郑岳久; 柯鹏辉 | 一种基于机器学习的锂离子电池早期寿命异常检测方法 | 发明 | |
| 12 | CN202311128965.4 | CN117169754A | 朱佳俊; 来鑫; 唐晓鹏; 郑岳久; 柯月航 | 一种对老化和负载不敏感的电池内部短路电阻定量检测方法 | 发明 | |
| 13 | CN202311083245.0 | CN117054912A | 郑岳久; 王树茂; 包文康; 陈超强; 张学; 吴震轩; 孙跃东 | 一种基于电压弛豫特征的并联电池内阻一致性识别方法 | 发明 | |
| 14 | CN202310951775.6 | CN116930771A | 郑岳久; 陈金荣; 沈逸凡 | 一种基于DTW的实车藏电电量估计方法 | 发明 | |
| 15 | CN202310715294.5 | CN116819332A | 熊付强; 柯希春; 郑岳久; 刘佳林; 刘煦旸; 周昊 | 一种电池故障诊断方法、装置、介质及BMS系统 | 发明 | |
| 16 | CN202310431366.3 | CN116387685A | 郑岳久; 周川义; 沈凯; 陈连杰 | 一种具有自吸功能的散热圆柱锂电池及电池散热模组 | 发明 | |
| 17 | CN202310435287.X | CN116449217A | 郑岳久; 陈超强; 韩雪冰; 王冠; 欧阳明高; 俞晓媛 | 一种固相扩散系数随温度变化的等效电路模型的构建方法 | 发明 | |
| 18 | CN202310313985.2 | CN116315272A | 沈凯; 梁冲; 郑岳久; 李健华; 丁鹏 | 一种浸没式热管理的电池底盘装置 | 发明 | |
| 19 | CN202310226004.0 | CN116224078A | 孙涛; 张方; 郑岳久; 包新宇; 来鑫 | 一种新能源汽车动力电池内阻计算及预测方法 | 发明 | |
| 20 | CN202310137592.0 | CN116108678A | 黄云峰; 来鑫; 郑岳久; 朱文宽; 朱佳俊; 朱志成 | 一种磷酸铁锂电池双水箱模型参数辨识与优化方法 | 发明 | |
| 21 | CN202310082766.8 | CN116008847A | 郑岳久; 陈飞; 汪宇; 朱广英; 王冠 | 一种基于车云协同下的锂离子电池在线析锂检测方法 | 发明 | |
| 22 | CN202310082592.5 | CN116256653A | 郑岳久; 陈天新; 王一凡; 周龙; 孙跃东 | 一种基于电芯克隆的电池组仿真模型 | 发明 | |
| 23 | CN202310026162.1 | CN115951255A | 孙涛; 任心齐; 郑岳久; 时开彦; 陆天鹏 | 一种基于电池实际衰减机理的加速老化实验方法 | 发明 | |
| 24 | CN202211463317.X | CN116127591A | 沈凯; 戴劲; 郑岳久; 来鑫; 凌羽嘉 | 新能源汽车整车热管理数字孪生模型的构建方法及应用 | 发明 | |
| 25 | CN202211457871.7 | CN115692934A | 郑岳久; 周川义; 沈凯; 陈连杰; 金昌勇; 欧阳明高 | 一种带散热流道的锂电池及电池模组 | 发明 | |
| 26 | CN202211403290.5 | CN115877240A | 来鑫; 唐晓鹏; 郑岳久; 马云杰; 周龙 | 一种锂离子电池全频率电化学阻抗谱在线重构方法 | 发明 | |
| 27 | CN202211346317.1 | CN115902634A | 来鑫; 唐晓鹏; 郑岳久; 袁明; 周龙 | 一种锂离子电池分段组合式建模方法 | 发明 | |
| 28 | CN202211301881.1 | CN115508726A | 孙涛; 陈建国; 郑岳久; 周龙 | 一种基于多阶段恒流恒压充电工况的容量衰减拐点识别方法 | 发明 | |
| 29 | CN202211273856.7 | CN115561638A | 孙涛; 陈建国; 郑岳久; 周龙 | 一种基于电压积分和LSTM神经网络的容量估计方法 | 发明 | |
| 30 | CN202210718563.9 | CN115021361A | 郑岳久; 姚帅; 王冠; 袁明; 王明珠 | 一种三元锂-磷酸铁锂混合电池组均衡方法 | 发明 | |
| 31 | CN202210697304.2 | CN115021359A | 郑岳久; 戴劲; 丁鹏; 沈凯 | 一种无析锂温控快充策略的制定方法 | 发明 | |
| 32 | CN202210621796.7 | CN114814619A | 郑岳久; 王冠; 李彬; 庞康; 姚帅; 袁明 | 一种三元-铁锂混合电池组的SOC估算方法 | 发明 | |
| 33 | CN202210614025.5 | CN117192372A | 李彬; 来鑫; 郑岳久; 王冠; 姚熠; 马云杰; 周昊 | 一种基于间歇式均衡的浮充下电池内短路定量诊断方法 | 发明 | |
| 34 | CN202210257011.2 | CN116804716A | 郑岳久; 李彬; 来鑫; 王冠; 周昊; 姚熠; 王一宇 | 一种浮充工况下的电池内短路定量诊断方法 | 发明 | |
| 35 | CN202210169233.9 | CN114497832A | 郑岳久; 陈连杰; 沈凯 | 一种带散热流道的圆柱电池及其散热模组 | 发明 | |
| 36 | CN202111367545.2 | CN114035074A ;CN114035074B |
郑岳久; 王冠 | 一种诊断磷酸铁锂串联电池组中微短路单体的方法 | 发明 | 已授权 |
| 37 | CN202111215727.8 | CN113933736A ;CN113933736B |
张月正; 郑岳久; 庞康; 许圳淇 | 基于云端放电数据的电池组一致性评价方法 | 发明 | |
| 38 | CN202110952944.9 | CN113567873A ;CN113567873B |
郑岳久; 庞康; 欧阳明高; 韩雪冰; 周龙; 厉凯; 潘伟民; 李彬 | 一种基于电池组内单体充电曲线差异的电池容量和SOC估计方法 | 发明 | 已授权 |
| 39 | CN202110944341.4 | CN115704867A | 郑岳久; 李相俊; 孟正; 来鑫; 徐少华; 汪湘晋; 马瑜涵 | 一种锂离子电池电池容量估计与剩余使用寿命预测的方法 | 发明 | |
| 40 | CN202110849887.1 | CN113484787A ;CN113484787B |
来鑫; 陈权威; 邓聪; 郑岳久; 周龙 | 基于电化学阻抗谱的退役锂离子电池快速分选重组方法 | 发明 | 已授权 |
| 41 | CN202110736835.3 | CN113361206A ;CN113361206B |
孙涛; 冯礼鸿; 蒋胜; 徐雨文; 郑岳久 | 基于地图API信息和HMM的未来能耗预测方法 | 发明 | 已授权 |
| 42 | CN202110692784.9 | CN113328499A ;CN113328499B |
郑岳久; 钱广俊; 陈英杰; 王万泉; 孙跃东; 徐雨文 | 一种电池组容量均衡方法 | 发明 | 已授权 |
| 43 | CN202110691123.4 | CN113328498A ;CN113328498B |
郑岳久; 钱广俊; 王万泉; 孙跃东; 韩雪冰; 欧阳明高; 徐超杰 | 一种基于云平台电池组均衡算法的可视化评价方法 | 发明 | 已授权 |
| 44 | CN202110641130.3 | CN113381096A ;CN113381096B |
沈凯; 郑岳久; 孙杰宇; 金昌勇; 姚健; 潘松 | 基于冷却路径的实时优化电池热管理系统 | 发明 | 已授权 |
| 45 | CN202110425095.1 | CN113131028A ;CN113131028B |
郑岳久; 周龙; 洪琰; 张俊 | 一种基于机械压力检测锂离子电池过放电的方法 | 发明 | 已授权 |
| 46 | CN202110354009.2 | CN113125965A;CN113125965B | 潘岳; 任东生; 卢兰光; 韩雪冰; 冯旭宁; 郑岳久; 李哲; 欧阳明高 | 电池析锂检测方法、装置、设备及存储介质 | 发明 | 已授权 |
| 47 | CN202110280901.0 | CN112858929A;CN112858929B | 王冠; 郑岳久; 肖占龙; 孙跃东; 周龙 | 一种基于模糊逻辑与扩展卡尔曼滤波的电池SOC估计方法 | 发明 | 已授权 |
| 48 | CN202110264434.2 | CN113051721A;CN113051721B | 郑岳久; 金昌勇; 姚健; 来鑫; 孙涛; 沈凯; 周龙 | 一种基于能流分析的电池模组结构设计方法 | 发明 | 已授权 |
| 49 | CN202110067907.X | CN112649740A;CN112649740B | 孙涛; 王绍青; 蒋胜; 郑岳久 | 基于IOWA算子的锂电池容量估计与寿命预测方法 | 发明 | 已授权 |
| 50 | CN202110033450.0 | CN112816892A;CN112816892B | 郑岳久; 吕乔; 周勇; 徐雨文; 韩雪冰; 李相俊 | 一种储能电站中电堆性能的测试方法 | 发明 | 已授权 |
| 51 | CN202110002396.3 | CN112816893A;CN112816893B | 郑岳久; 侯思譞; 来鑫; 卢勇; 周龙; 顾黄辉; 庞康 | 一种基于电池组单体剩余充电电量快速估计电池组容量方法 | 发明 | 已授权 |
| 52 | CN202110002692.3 | CN112816891A | 郑岳久; 庞康; 欧阳明高 | 一种基于电池组内单体充电曲线差异的电池容量和SOC估计方法 | 发明 | |
| 53 | CN202011482543.3 | CN112710955A;CN112710955B | 郑岳久; 周旋; 秦超; 周龙; 崔一凡; 晏莉琴; 吕桃林; 解晶莹 | 一种用于提高电池容量估计精度的算法 | 发明 | 已授权 |
| 54 | CN202011485428.1 | CN112731157A | 郑岳久; 秦超; 崔一凡; 周龙; 王冠; 晏莉琴; 吕桃林; 解晶莹 | 一种基于数据驱动的锂离子电池容量估计方法 | 发明 | |
| 55 | CN202011372394.5 | CN112611972A | 程阳阳; 郑岳久; 来鑫; 周龙 | 一种低频采样数据条件下估计锂电池SOC的方法 | 发明 | |
| 56 | CN202011360605.3 | CN112448080A | 金昌勇; 郑岳久; 沈凯; 来鑫; 姚健; 潘松; 孙杰宇 | 一种沉浸式储能箱及沉浸式储能系统 | 发明 | |
| 57 | CN202022802708.2 | CN214313363U | 金昌勇; 郑岳久; 沈凯; 来鑫; 姚健; 潘松; 孙杰宇 | 一种沉浸式储能箱及沉浸式储能系统 | 实用新型 | |
| 58 | CN202011039298.9 | CN112180274A;CN112180274B | 李家琦; 陆一凡; 周正; 厉凯; 郑岳久 | 一种动力电池组快速检测测评方法 | 发明 | 已授权 |
| 59 | CN202010994752.X | CN112180266A | 郑岳久; 罗棋; 易威; 李相俊; 徐少华; 汪湘晋; 马瑜涵 | 一种电池内短路全过程的跟踪预警方法 | 发明 | |
| 60 | CN202010934242.3 | CN112014746A;CN112014746B | 郑岳久; 沈安琪; 梁莹; 孟正; 韩雪冰; 欧阳明高 | 一种区分串联电池包内外微短路的故障诊断方法 | 发明 | 已授权 |
| 61 | CN202010871109.8 | CN111967194A;CN111967194B | 周正; 李家琦; 厉凯; 陆一凡; 郑岳久 | 一种基于云端历史数据的电池分类方法 | 发明 | 已授权 |
| 62 | CN202010673045.0 | CN111781529A;CN111781529B | 周正; 厉凯; 李家琦; 陆一凡; 郑岳久 | 基于电动汽车云端数据的电池组单体容量估计方法和装置 | 发明 | 已授权 |
| 63 | CN202010588004.1 | CN111744827A | 郑岳久; 吴航; 易威; 周龙; 来鑫 | 一种分选锂电芯的方法 | 发明 | |
| 64 | CN202010580826.5 | CN111929602A;CN111929602B | 郑岳久; 沈安琪; 韩雪冰; 欧阳明高; 周龙 | 一种基于容量估计的单体电池漏电或微短路定量诊断方法 | 发明 | 已授权 |
| 65 | CN202010572703.7 | CN111722118A;CN111722118B | 来鑫; 李云飞; 杨奇寰; 迟丁康; 张锴林; 郑岳久; 周龙 | 一种基于SOC-OCV优化曲线的锂离子电池SOC估计方法 | 发明 | 已授权 |
| 66 | CN202010513560.2 | CN111596212A;CN111596212B | 孔祥栋; 郑岳久; 张振东; 来鑫; 汪湘晋; 马瑜涵; 李相俊; 徐少华 | 一种基于电化学变量监测的电池内部故障诊断方法及装置 | 发明 | 已授权 |
| 67 | CN202010501148.9 | CN111610452A;CN111610452B | 郑岳久; 施治贺; 赵同政; 郭东旭; 韩雪冰; 欧阳明高 | 一种基于电化学阻抗谱低频区域的锂离子电池端电压估计 | 发明 | 已授权 |
| 68 | CN202010497401.8 | CN111746347A;CN111746347B | 郑岳久; 易威; 吴航; 周龙 | 车用软包电池均衡装置及软包电池的均衡方法 | 发明 | 已授权 |
| 69 | CN202010444393.0 | CN111610447A | 郑岳久; 沈安琪; 崔一凡; 陆天溪; 晏莉琴; 吕桃林; 解晶莹 | 一种基于开路电压的电池容量估计方法 | 发明 | |
| 70 | CN202010386719.9 | CN111693876A | 韩雪冰; 陆一凡; 郑岳久; 冯旭宁; 褚政宇; 卢兰光; 欧阳明高 | 电池组评价方法及系统 | 发明 | |
| 71 | CN202010358554.4 | CN111610456A;CN111610456B | 郑岳久; 罗棋; 周龙 | 一种区分电池微短路和小容量故障的诊断方法 | 发明 | 已授权 |
| 72 | CN202010350255.6 | CN111505532A | 来鑫; 易威; 郑岳久; 周龙; 孙涛 | 基于SOC相关系数的串联锂电池组早期内短路在线检测方法 | 发明 | |
| 73 | CN202010227542.8 | CN111381180A;CN111381180B | 刘海东; 周正; 郑岳久; 郭东旭; 褚政宇 | 一种电池容量的确定方法和装置 | 发明 | 已授权 |
| 74 | CN202010187854.0 | CN111446514A | 郑岳久; 孟正; 周勇; 来鑫; 周龙; 沈安琪; 朱文宽; 黄云峰; 刘海东 | 伴随电池寿命衰减合理调整锂电池放电截止电压的方法 | 发明 | |
| 75 | CN201911189262.6 | CN111060820A;CN111060820B | 郑岳久; 李云飞; 来鑫; 周龙; 杨新波; 吴航; 周勇; 孟正 | 一种基于二阶RC模型的锂电池SOC、SOP估计方法 | 发明 | 已授权 |
| 76 | CN201911157371.X | CN110940920A;CN110940920B | 郑岳久; 赵同政; 刘金海; 周龙 | 锂电池在预定SOC下的不析锂的最大充电电流的获取方法 | 发明 | 已授权 |
| 77 | CN201911120970.4 | CN110935655A;CN110935655B | 郑岳久; 吴航; 易威; 来鑫; 周龙 | 一种基于并联电池组支路电流变化的自放电快速筛选方法 | 发明 | 已授权 |
| 78 | CN201911075498.7 | CN110850318A | 郑岳久; 厉凯; 陆一凡 | 带滤波法权重分配的锂电池健康状态估计方法 | 发明 | |
| 79 | CN201911045694.X | CN110752410A;CN110752410B | 郑岳久; 邓聪; 来鑫; 朱志伟; 何忠霖; 程阳阳; 周勇 | 一种快速分选和重组退役锂电池的方法 | 发明 | 已授权 |
| 80 | CN201910916316.8 | CN110728037A;CN110728037B | 郑岳久; 崔一凡; 周龙; 吴路平; 沈安琪; 施治贺 | 电池容量闭环融合预测方法 | 发明 | 已授权 |
| 81 | CN201910880365.0 | CN110702751A;CN110702751B | 刘金海; 韩雪冰; 褚政宇; 卢兰光; 欧阳明高; 郑岳久 | 锂离子电池参比电极制备方法及锂离子电池参比电极 | 发明 | 已授权 |
| 82 | CN201910870409.1 | CN110596612A;CN110596612B | 来鑫; 郑岳久; 邓聪; 李云飞; 黄云峰; 孟正 | 一种对面向梯次利用的退役锂电池分类方法的选取方法 | 发明 | 已授权 |
| 83 | CN201910832016.1 | CN110617907A | 周龙; 郑岳久; 来鑫; 吴路平 | 一种软包电池外表面施压装置及其压力测试方法 | 发明 | |
| 84 | CN201910680281.2 | CN110320473A;CN110320473B | 郑岳久; 厉凯; 陆一凡; 周萍; 周勇 | 一种基于卡尔曼滤波及模糊逻辑汽车锂电池容量估计方法 | 发明 | |
| 85 | CN201910414491.7 | CN110135077A;CN110135077B | 来鑫; 乔冬冬; 郑岳久; 周龙 | 基于Matlab的退役锂电池分类模型的建立方法 | 发明 | 已授权 |
| 86 | CN201910388782.3 | CN110135490A;CN110135490B | 来鑫; 乔冬冬; 郑岳久; 王书宇; 何龙; 周龙 | 一种基于样本标签的退役锂电池分类方法 | 发明 | 已授权 |
| 87 | CN201910362597.7 | CN110109030A;CN110109030B | 郭东旭; 冯旭宁; 郑岳久; 韩雪冰; 卢兰光; 欧阳明高; 何向明; 杨耕 | 电池组一致性评价方法与电池组均衡策略 | 发明 | 已授权 |
| 88 | CN201910362410.3 | CN110109018A | 郭东旭; 冯旭宁; 郑岳久; 韩雪冰; 卢兰光; 欧阳明高; 何向明; 杨耕 | 数据图表生成方法与电池组保养维护方法 | 发明 | |
| 89 | CN201910352732.X | CN110135478A;CN110135478B | 来鑫; 乔冬冬; 郑岳久; 周龙 | 考虑梯次利用场景的退役锂电池分类方法 | 发明 | 已授权 |
| 90 | CN201910342288.3 | CN110045291A;CN110045291B | 陆一凡; 郑岳久; 时长春 | 一种锂电池容量估计方法 | 发明 | 已授权 |
| 91 | CN201910274490.7 | CN109946613A | 李家琦; 周正; 陆一凡; 厉凯; 郑岳久 | 车用动力电池的内阻在线估计与寿命检测方法 | 发明 | |
| 92 | CN201910046730.8 | CN111463504A;CN111463504B | 时长春; 赵同政; 郑岳久 | 一种用于电池模块维护的均衡算法 | 发明 | 已授权 |
| 93 | CN201910046718.7 | CN111451159A | 时长春; 朱志伟; 郑岳久 | 一种对电池模块内单体电池容量进行快速筛选的方法 | 发明 | |
| 94 | CN201910041733.2 | CN110031767A;CN110031767B | 郑岳久; 杨新波; 金昌勇; 王晶晶 | 一种测试SOP功率的方法 | 发明 | 已授权 |
| 95 | CN201910041729.6 | CN109814041A | 秦超; 郑岳久; 来鑫; 程阳阳; 何龙; 乔冬冬 | 一种锂离子电池双卡尔曼滤波容量估计方法 | 发明 | |
| 96 | CN201910041319.1 | CN109877064A;CN109877064B | 易威; 郑岳久; 来鑫; 周龙; 杨新波; 王书宇 | 一种并联电池自放电快速筛选的方法 | 发明 | 已授权 |
| 97 | CN201811422508.5 | CN109581230A | 周龙; 郑岳久; 崔一凡; 王晶晶 | 压缩气体可调软包电池外表面恒压力预紧测试装置及方法 | 发明 | |
| 98 | CN201811391762.3 | CN109191797A | 来鑫; 何龙; 郑岳久; 易威; 王书宇; 周龙 | 一种油库危险气体无线远程监控及报警系统 | 发明 | |
| 99 | CN201811296904.8 | CN109474049A;CN109474049B | 郑岳久; 陆一凡; 程阳阳 | 用于电动汽车充电的可移动多模式充电装置及方法 | 发明 | 已授权 |
| 100 | CN201811285033.X | CN109211358A | 来鑫; 易威; 郑岳久; 王书宇; 何龙; 崔一凡; 陆一凡; 周龙 | 一种铁路油罐车装油液位检测装置及检测方法 | 发明 | |
| 101 | CN201811235958.3 | CN109356838A | 来鑫; 王书宇; 郑岳久; 易威; 赵同政; 杨新波; 朱志伟; 周龙 | 一种油库输油泵运行状态检测与远程监控系统 | 发明 | |
| 102 | CN201810736497.1 | CN108957340A;CN108957340B | 来鑫; 易威; 郑岳久; 乔冬冬; 王书宇; 陆一帆; 崔一凡; 赵同政; 杨新波; 朱志伟 | 电磁式电池充放电夹具系统 | 发明 | 已授权 |
| 103 | CN201810448614.4 | CN108318775A;CN108318775B | 郑岳久; 时玮 | 在线诊断电池短路故障的方法及装置 | 发明 | 已授权 |
| 104 | CN201810343135.6 | CN108539813A | 郑岳久; 高寒; 周萍; 黄鹏; 姜淳 | 一种锂离子动力电池主动均衡方法 | 发明 | |
| 105 | CN201810271038.0 | CN108732504A | 来鑫; 郑岳久; 高文凯; 周龙 | 全电荷区域内锂电池等效电路模型参数辨识与优化方法 | 发明 | |
| 106 | CN201810235319.0 | CN108511817A | 郑岳久; 黄鹏; 来鑫; 姜淳; 高寒; 刘金海 | 一种锂离子动力电池组主动均衡电路 | 发明 | |
| 107 | CN201810233491.2 | CN108470932A;CN108470932B | 郑岳久; 乔冬冬; 来鑫; 周龙; 高文凯 | 一种电池内阻及容量的快速筛选方法 | 发明 | 已授权 |
| 108 | CN201810235332.6 | CN108471149A | 郑岳久; 黄鹏; 来鑫; 姜淳; 高寒; 刘金海 | 一种锂离子动力电池组主动均衡电路 | 发明 | |
| 109 | CN201810193585.1 | CN108461838A;CN108461838B | 郑岳久; 乔冬冬; 来鑫; 周龙; 高文凯 | 一种电池内阻及容量的快速筛选方法 | 发明 | 已授权 |
| 110 | CN201810153882.3 | CN108363016A;CN108363016B | 孔祥栋; 张振东; 郑岳久; 尹丛勃 | 基于人工神经网络的电池微短路定量诊断方法 | 发明 | 已授权 |
| 111 | CN201810134305.X | CN108365253A;CN108365253B | 郑岳久; 乔冬冬; 来鑫; 秦超 | 一种电池内阻及容量的快速筛选方法 | 发明 | 已授权 |
| 112 | CN201810076299.7 | CN108199073A;CN108199073B | 郑岳久; 乔冬冬; 来鑫; 秦超 | 一种电池内阻及容量的快速筛选方法 | 发明 | 已授权 |
| 113 | CN201810053081.X | CN108152755A;CN108152755B | 孔祥栋; 郑岳久; 张振东; 周龙; 来鑫 | 在线定量诊断电池微短路故障的方法 | 发明 | 已授权 |
| 114 | CN201810034504.3 | CN108226803A;CN108226803B | 时玮; 郑岳久; 王久林; 康鑫; 陈洪涛 | 一种变挤压力的电池测试方法及系统 | 发明 | 已授权 |
| 115 | CN201711392020.8 | CN108144875A;CN108144875B | 郑岳久; 乔冬冬; 来鑫; 周龙 | 一种电池串并联电路快速切换装置及切换方法 | 发明 | 已授权 |
| 116 | CN201711382871.4 | CN108072845A;CN108072845B | 郑岳久; 王晶晶; 高文凯; 来鑫; 周龙; 刘金海 | 基于不完整充电电压曲线的锂电池容量估计方法 | 发明 | 已授权 |
| 117 | CN201711372415.1 | CN108196191A | 时玮; 张孝同; 郑岳久; 王久林; 康鑫 | 一种荷电状态区间选取方法、装置及处理器 | 发明 | |
| 118 | CN201711375703.2 | CN108599282A | 郑岳久; 黄鹏; 来鑫; 周龙; 姜淳; 高寒 | 一种锂离子动力电池组充放电主动均衡系统及方法 | 发明 | |
| 119 | CN201711346835.2 | CN108248676A | 来鑫; 乔冬冬; 郑岳久; 姜淳; 秦超; 金昌勇 | 一种具有容错功能的多电机线控转向系统及控制方法 | 发明 | |
| 120 | CN201711251667.9 | CN108008317A | 胡晓松; 高文凯; 郑岳久; 冯飞; 谢翌; 杨亚联 | 一种基于电池开路电压曲线特性的荷电状态估计方法 | 发明 | |
| 121 | CN201711194352.5 | CN107846765A | 康鑫; 时玮; 胡晓松; 管小兰; 陈志祥; 郑岳久; 陈嵩; 杨亚联 | 路灯组网管理方法及路灯系统 | 发明 | |
| 122 | CN201711188807.2 | CN107770936A;CN107770936B | 郑岳久; 时玮; 杨亚联; 胡晓松; 管小兰; 陈志祥 | 路灯控制装置、路灯及路灯跟随系统 | 发明 | 已授权 |
| 123 | CN201711160325.6 | CN108196190A;CN108196190B | 郑岳久; 金昌勇; 高文凯; 来鑫; 黄鹏; 秦超 | 一种电池组在线故障诊断方法 | 发明 | 已授权 |
| 124 | CN201711160650.2 | CN108128392A | 郑岳久; 刘金海; 周龙; 王勃凡; 王晶晶 | 一种可折叠式自动跟随电动车 | 发明 | |
| 125 | CN201711130241.8 | CN107968452A | 来鑫; 郑岳久; 姜淳; 高寒; 秦超; 金昌勇 | 一种锂离子动力电池组的主被动混合均衡系统及方法 | 发明 | 已授权 |
| 126 | CN201711026318.7 | CN107543549A;CN107543549B | 高文凯; 郑岳久; 来鑫; 周龙; 孔祥栋 | 无人机单侧成像约束条件下的路线规划方法 | 发明 | 已授权 |
| 127 | CN201710992480.8 | CN107728074A;CN107728074B | 来鑫; 郑岳久; 周龙; 秦超; 金昌勇 | 一种考虑传感器与模型误差的锂电池荷电状态估计方法 | 发明 | 已授权 |
| 128 | CN201710384131.8 | CN108931725A;CN108931725B | 刘兵晓; 张光辉; 郑岳久 | 一种电池故障检测的方法及装置 | 发明 | 已授权 |
| 129 | CN201710202988.3 | CN106991737A;CN106991737B | 周龙; 郑岳久 | 电池管理系统数据的缩量存储和重构方法 | 发明 | 已授权 |
| 130 | CN201710192734.8 | CN106802396A;CN106802396B | 高文凯; 郑岳久 | 一种电池内短路的诊断方法 | 发明 | 已授权 |
| 131 | CN201710192090.2 | CN106842061A | 高文凯; 郑岳久 | 一种低荷电状态的估计方法 | 发明 | |
| 132 | CN201710193188.X | CN106865047A | 周龙; 郑岳久; 王博凡 | 一种自动压缩双联垃圾桶 | 发明 | |
| 133 | CN201710146030.7 | CN107015152A | 高文凯; 郑岳久; 欧阳明高; 周龙 | 电池组不一致性的辨识方法 | 发明 | |
| 134 | CN201611181196.4 | CN106597310A | 郑岳久; 高文凯; 周龙 | 电池筛选装置 | 发明 | |
| 135 | CN201611080339.2 | CN106785109A;CN106785109B | 郑岳久; 孔祥栋; 周龙 | 电池组存储数据同步方法 | 发明 | 已授权 |
| 136 | CN201611061379.2 | CN108107364A;CN108107364B | 张光辉; 郑岳久; 周龙 | 一种检测电池的方法及装置 | 发明 | 已授权 |
| 137 | CN201611019758.5 | CN106443490A;CN106443490B | 郑岳久; 孔祥栋; 周龙 | 一种电池短路的故障诊断系统 | 发明 | 已授权 |
| 138 | CN201611011622.X | CN106585396A;CN106585396B | 高文凯; 郑岳久; 周龙 | 冗余主动监控电动汽车充电的充电机控制方法 | 发明 | 已授权 |
| 139 | CN201610953495.9 | CN106569424A;CN106569424B | 郑岳久; 孔祥栋; 周龙; 朱志成 | 电池管理系统数据存储的在线同步方法 | 发明 | 已授权 |
| 140 | CN201610952068.9 | CN106505662A | 郑岳久; 孙林; 周龙; 高文凯 | 标定电动汽车电池组容量的充电装置及工作方法 | 发明 | |
| 141 | CN201610854888.4 | CN107870301A;CN107870301B | 刘兵晓; 张光辉; 郑岳久 | 一种电池微短路的检测方法及装置 | 发明 | 已授权 |
| 142 | CN201610117579.9 | CN105808164A;CN105808164B | 郑岳久; 周龙; 李相俊; 许霜霜 | 低频信号变频存储方法及电池组低频数据变频存储方法 | 发明 | 已授权 |
| 143 | CN201610067831.X | CN105717455A;CN105717455B | 高尚; 欧阳明高; 冯旭宁; 卢兰光; 郑岳久 | 电池组的电池单体SOC和容量估计算法的选择方法 | 发明 | 已授权 |
| 144 | CN201510695912.X | CN105223405A;CN105223405B | 郑岳久; 李相俊; 周龙 | 电池管理系统的数据存储频率的确定方法 | 发明 | |
| 145 | CN201310341683.2 | CN103399282A;CN103399282B | 郑岳久; 欧阳明高; 卢兰光; 李建秋 | 电池单体故障诊断方法 | 发明 | 已授权 |
| 146 | CN201310329890.6 | CN103399278A;CN103399278B | 郑岳久; 欧阳明高; 卢兰光; 李建秋 | 电池单体的容量和荷电状态的估计方法 | 发明 | 已授权 |
| 147 | CN201310322989.3 | CN103427459A;CN103427459B | 郑岳久; 欧阳明高; 卢兰光; 李建秋 | 电池组容量均衡方法 | 发明 | 已授权 |
| 148 | CN201310313621.0 | CN103413981A;CN103413981B | 郑岳久; 欧阳明高; 卢兰光; 李建秋 | 电池组容量均衡方法和装置 | 发明 | 已授权 |
| 149 | CN201310293676.X | CN103344922A;CN103344922B | 郑岳久; 欧阳明高; 卢兰光; 李建秋 | 混合电动车电池单体荷电状态差异检测方法 | 发明 | 已授权 |
| 150 | CN201310217123.6 | CN103296324A;CN103296324B | 郑岳久; 欧阳明高; 卢兰光; 李建秋 | 车用动力电池组充电方法 | 发明 | 已授权 |
| 151 | CN200910242629.6 | CN101826642A;CN101826642B | 李建秋; 孟庆然; 郑岳久; 卢兰光; 欧阳明高 | 一种电池主动均衡系统中的机电选通装置 | 发明 | 已授权 |
| 152 | CN200910242630.9 | CN101876670A | 郑岳久; 李建秋; 李相俊; 韩雪冰; 卢兰光; 欧阳明高 | 一种电池单片电压测量电路及其测量误差补偿方法 | 发明 | |
| 153 | CN200910092039.X | CN101640430A;CN101640430B | 李建秋; 郑岳久; 卢兰光; 欧阳明高 | 车用动力电池动态均衡装置 | 发明 | 已授权 |