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锂离子电池网络公开测试数据下载

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锂离子电池设计与管理的核心在于数据。这些数据不仅用于评估电池的健康状态(SOH)、荷电状态(SOC)和内阻(IR),还能预测剩余使用寿命(RUL)、识别容量衰减与IR上升的拐点,并建立BMS管理方法。此外,数据在故障检测、充电管理、热管理、材料开发及电池回收等方面也发挥着关键作用。我们总结了网络上公开的锂电池相关数据集,供大家参考。

研究电池寿命循环数据需投入大量时间和资源,通常需数月甚至数年。这些数据涵盖了电流、电压、温度及容量和IR等测量值,为开发预测模型提供了基础,进而预测未来的容量保持率和内阻增长等健康指标。通过这些数据的深入分析,我们能更好地理解电池性能,优化其应用。


图1 包含测量电流、电压和温度变化的高通量循环数据集的典型图,根据容量、IR、电压和温度可进行老化分析。


1、美国国家航空航天局NASA

(1)34 个标称容量为 2 Ah的18650锂离子电池的数据
网址:https://ti.arc.nasa.gov/tech/dash/groups/pcoe/prognostic-data-repository/
电池在一系列环境温度(4°C、24°C、43°C)下以CC-CV充电、不同方式放电循环测试。该数据集包括电流、电压和电池温度,以及放电容量和的循环测量EIS阻抗。数据集以“.mat”格式提供。

(2)28个标称容量为2.2Ah的钴酸锂 (LCO)18650电池的数据

网址:https://ti.arc.nasa.gov/tech/dash/groups/pcoe/prognostic-data-repository/

数据集由 7 组组成,每组4个电池,在设定的环境温度(室温,40°C)下循环,每组电池采用不同的充放电方式循环测试。该数据集包括电流、电压和电池温度,以及放电容量和每 50 个循环的 EIS 阻抗。数据集以“.mat”格式提供下载。


2、The Centre for Advanced Life Cycle Engineering (CALCE)

网址:https://web.calce.umd.edu/batteries/data.htm

(1)18650圆柱电池数据

(2)A123圆柱LFP电池

(3)方形电池数据

(4)软包电池数据

3、与麻省理工和斯坦福大学合作的丰田研究所
网址:https://data.matr.io/1/

数据集包含 357个 由 A123 Systems (APR18650M1A) 制造的商用 LFP/石墨电池,额定容量为1.1Ah,数据集以“.csv”、MATLAB 结构体和JSON 结构体格式提供,并随数据提供了一个带有脚本的 GitHub 存储库链接。

(1)Data-driven prediction of battery cycle life before capacity degradation
This dataset, used in our publication “Data-driven prediction of battery cycle life before capacity degradation”, consists of 124 commercial lithium-ion batteries cycled to failure under fast-charging conditions. These lithium-ion phosphate (LFP)/graphite cells, manufactured by A123 Systems (APR18650M1A), were cycled in horizontal cylindrical fixtures on a 48-channel Arbin LBT potentiostat in a forced convection temperature chamber set to 30°C. The cells have a nominal capacity of 1.1 Ah and a nominal voltage of 3.3 V.

The objective of this work is to optimize fast charging for lithium-ion batteries. As such, all cells in this dataset are charged with a one-step or two-step fast-charging policy. This policy has the format “C1(Q1)-C2”, in which C1 and C2 are the first and second constant-current steps, respectively, and Q1 is the state-of-charge (SOC, %) at which the currents switch. The second current step ends at 80% SOC, after which the cells charge at 1C CC-CV. The upper and lower cutoff potentials are 3.6 V and 2.0 V, respectively, which are consistent with the manufacturer’s specifications. These cutoff potentials are fixed for all current steps, including fast charging; after some cycling, the cells may hit the upper cutoff potential during fast charging, leading to significant constant-voltage charging. All cells discharge at 4C.

(2)Closed-loop optimization of extreme fast charging for batteries using machine learning
This dataset, used in our publication “Closed-loop optimization of extreme fast charging for batteries using machine learning”, consists of commercial lithium-ion batteries cycled under fast-charging conditions. These lithium-ion phosphate (LFP)/graphite cells, manufactured by A123 Systems (APR18650M1A), were cycled in horizontal cylindrical fixtures on a 48-channel Arbin LBT potentiostat in a forced convection temperature chamber set to 30°C. The cells have a nominal capacity of 1.1 Ah and a nominal voltage of 3.3 V.

The objective of this work is to optimize fast charging for lithium-ion batteries. As such, all cells in this dataset are charged with one of 224 six-step, 10-minute fast-charging protocols. These protocols have the format “CC1-CC2-CC3-CC4”, as documented in the manuscript. The upper and lower cutoff potentials are 3.6 V and 2.0 V, respectively, which are consistent with the manufacturer’s specifications. These cutoff potentials are fixed for all current steps, including fast charging; after some cycling, the cells may hit the upper cutoff potential during fast charging, leading to significant constant-voltage charging. All cells discharge at 4C.

4、桑迪亚国家实验室Sandia national lab
网址:https://www.batteryarchive.org/snl_study.html

总共有 86 个电池(30 个 LFP、24 个 NCA 和 32 个 NMC),LFP电池是A123 Systems (APR18650M1A, 1.1 Ah),NCA电池是Panasonic (NCR18650B, 3.2 Ah),NMC电池是LG Chem (18650HG2, 3 Ah)

5、牛津大学电池智能实验室Battery intelligence lab at the university of Oxford
网址:https://howey.eng.ox.ac.uk/data-and-code/

28 个商用 3 Ah 18650 NCA/石墨电池 (NCR18650BD)。数据集分为 3 部分(第 1、2 和 3 部分),28 个电池分为 10 组(9 组 3 个电池;1 组 1 个电池),均在 24 °C 下进行测试,数据包括时间、电流、电压、容量和温度,以及 RPT 和 EIS 测试数据。

第 1-4 组,每组 3 个电池,以低倍率(C/2 和 C/4)循环老化,然后进行 5 或 10 天的日历老化,每 48 个循环运行一次 RPT。前 18 个月的实验数据显示在“第 1 部分”,第 19-36 个月数据在“第 2 部分”中。在第 2 部分中,第 5 组和第 6 组作为对照实验。第 5 组的电池连续 C/2 循环,而第 6 组仅日历老化(90% SOC)。第 7-10 组出现在数据集的“第 3 部分”中,每个组都使用 CC-CV方式循环,然后进行 5 或 10 天的日历老化。定期使用 (RPT) 和 EIS 测试来表征电池,以区分不同存储时间和倍率对电池老化的影响。

6、夏威夷自然能源研究所Hawaii natural energy institute
网址:https://www.batteryarchive.org/list.html
15 个商用 2.8 Ah NMC-LCO/石墨 18650 电池(LG Chem,型号“ICR18650 C2”)。电池在 25°C 下以固定的 1.5C 放电和 C/2 充电循环1000 次循环。该数据集包含电流、电压和充电/放电容量和能量的循环测量值,以及充电/放电容量,大约每 100 个循环运行 RPT。文件采用“.csv”格式提供下载。

7、Electric Vehicle Enhanced Range, Lifetime And Safety Through INGenious battery management’ (EVERLASTING)
网址:https://data.4tu.nl/

28个3.5 Ah 商用18650锂离子电池在一系列温度(0 °C、10 °C、25 °C 和 45 °C)、放电倍率(0.5C、3C)和充电倍率(0.5C,1C)下循环测试,所提供的数据为“.csv”格式。

8、其他电池数据
(1)卡尔斯鲁厄理工学院 (KIT)
网址:https://publikationen.bibliothek.kit.edu/1000094469
11 个 NMC/石墨 40 Ah 电池在室温下充电/放电循环

(2)伦敦大学 (UCL)
网址:https://rdr.ucl.ac.uk/articles/dataset/Lithium-ion_Battery_INR18650_MJ1_Data_400_Electrochemical_Cycles_EIL-015_/12159462/1

3.5 Ah LG Chem NCA INR18650 MJ1 电池在固定环境温度 (24 °C) 下循环 400 次,提供温度、电压和以及充电/放电容量的每个循环测量,以“.csv”格式给出。

更多内容请阅读参考文献:
Gdra B ,  Cs A ,  My C , et al. Lithium-ion battery data and where to find it[J]. Energy and AI, 2021. https://doi.org/10.1016/j.egyai.2021.100081

来源:锂想生活
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首次发布时间:2024-11-21
最近编辑:20小时前
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