Available Discharge Capacity Estimation According to C-rate Variation of Second-Used Battery
Pages 458 - 462
Abstract
As the number of used batteries increases, recycling the used batteries becomes an issue. One of the most notable ways to recycle used batteries is to create a new energy storage system with a used battery. In case of used battery, however, the life expectancy is low. Therefore, if a used battery is required to construct a low-cost system to perform a grid-scale energy storage, it should be considered how to use batteries efficiently. The fresh-battery oriented state-of-charge (SOC) or state-of-health (SOH) algorithms such as Kalman filter or extended Kalman filter which require the internal parameter of battery is not proper for used battery system. In general, experimental steps to measure the internal parameters of a battery take a long time. Whereas, the ampere counting method is almost real time process, so more appropriate for the used battery system. Basically, it can be used only with measuring the available discharge capacity of a battery. However, in the case of used lithium-ion battery, the variation of the available discharge capacity is greater as the C-rate changes, than that of the fresh battery is. In this paper, algorithm for estimation about available discharge capacity according to C-rate of second used battery is proposed. Since the proposed algorithm in this paper estimates the available discharge capacity according to the C-rate and SOH variations, it can minimize an error of the ampere counting. Since the base of the algorithm is ampere counting, it does not require a high-performance computing processor. Therefore, this second used battery system can be configured in low cost.
References
[1]
Hyun-jun Lee, Joung-hu Park, Jonghoon Kim, "Comparison of SOC estimation using EKF of the LiFePO cell according to minor loop in individual SOC range", Power Electronics Conference, 2015.07, 397--398(2 pages)
[2]
Hyun-jun Lee, Joung-hu Park, Jonghoon Kim, "Comparison of equivalent-circuit-model based SOC estimation using the EKF", Power Electronics Conference, 2014.11, 56--57(2 pages)
[3]
J. H Kim, C. Y. Chun, I. N. Hur, B. H. Cho, B. J. Kim, "OCV Hysteresis Effect-based SOC Estimation in EKF Algorithm for a LiFePO/C Cell", Power Electronics Conference, 2011.11, 301--302(2 pages).
[4]
G. L. Plett, "Extended Kalman filtering for battery management systems of LiPB-based HEV battery packs: Part 1-3," Journal of Power Sources, vol. 134, pp. 252--292, Aug. 2004.
[5]
Y. Zhang, C.-Y. Wang, and X. Tang, "Cycling degradation of an automotive LiFePO4lithium-ionbattery," Journal of Power Sources, vol. 196, pp. 1513--1520, Feb. 2011.
[6]
H. Li, M. Alsolami, Y. Xiao, X. Dong, K. Zhu and J. Wang, "Life test design for retired xEV batteries aiming at smart home applications," 2015 IEEE Energy Conversion Congress and Exposition (ECCE), Montreal, QC, 2015, pp. 4967--4972.
[7]
Zheng Fangdan, Jiang Jiuchun, Zhang Weige, Sun Bingxiang, Zhang Caiping and Wang Yukun, "Capacity estimation of large-scale retired li-ion batteries for second use based on support vector machine," 2014 IEEE 23rd International Symposium on Industrial Electronics (ISIE), Istanbul, 2014, pp. 1628--1634.
[8]
Pyeong-Yeon Lee, Seong-Jun Lee, Hyeon-Cheol Song, Jonghoon Kim, "SOC estimation method based on linear regression model of charged incremental capacity and discharge capacity for energy storage system", Power Electronics Conference, 2018.11, 39--41(3 pages)
[9]
Pyeong-Yeon Lee, Jin-Hyeong Park, Chan-O Yoon, Jonghoon Kim, "SOH estimation method based on simple linear regression model for high power lithium ion battery", Power Electronics Conference, 2018.07, 246--248(3 pages)
Index Terms
- Available Discharge Capacity Estimation According to C-rate Variation of Second-Used Battery
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Published In
December 2019
601 pages
ISBN:9781450376631
DOI:10.1145/3377170
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- Shanghai Jiao Tong University: Shanghai Jiao Tong University
- The Hong Kong Polytechnic: The Hong Kong Polytechnic University
- University of Malaya: University of Malaya
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Association for Computing Machinery
New York, NY, United States
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Published: 20 March 2020
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