CAPACITY OPTIMIZATION CONFIGURATION OF HYBRID ENERGY STORAGE SYSTEM WITH RETIRED POWER BATTERIES IN WIND FARMS

Li Peiqiang; Li Xiong; Cai Sun; Zhao Wei; Lei Ertao

doi:10.19912/j.0254-0096.tynxb.2022-0470

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Acta Energiae Solaris Sinica ›› 2022, Vol. 43 ›› Issue (5) : 492-498. DOI: 10.19912/j.0254-0096.tynxb.2022-0470

CAPACITY OPTIMIZATION CONFIGURATION OF HYBRID ENERGY STORAGE SYSTEM WITH RETIRED POWER BATTERIES IN WIND FARMS

Li Peiqiang¹, Li Xiong¹, Cai Sun², Zhao Wei², Lei Ertao²

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Abstract

Aiming at the application of retired power battery to smooth power fluctuation in wind farm, this paper proposes a capacity allocation method of hybrid energy storage system considering the time scale of retired battery. Firstly, the advantages of retired power battery energy storage and new battery energy storage are analyzed, and the cost composition of energy storage system is introduced. Then, a hybrid capacity configuration model with optimal full lifetime economy and considering the time scale of retired battery is established. By linearizaing the model, the energy storage capacity configuration results can be gained directly through the solver. Finally, the actual data of wind farm are analyzed to verify the effectiveness of the capacity allocation method. And the hybrid energy storage capacity configuration results for different energy storage configuration requirements of wind farm, different time scales of retired power battery and different control strategies of retired power battery are analyzed.

Key words

wind farm / retired power batteries / battery storage / hybrid energy storage system / fluctuation smoothing / time scale / capacity configuration

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Li Peiqiang, Li Xiong, Cai Sun, Zhao Wei, Lei Ertao. CAPACITY OPTIMIZATION CONFIGURATION OF HYBRID ENERGY STORAGE SYSTEM WITH RETIRED POWER BATTERIES IN WIND FARMS[J]. Acta Energiae Solaris Sinica. 2022, 43(5): 492-498 https://doi.org/10.19912/j.0254-0096.tynxb.2022-0470

References

[1] 国家发展改革委,国家能源局. 国家发展改革委国家能源局关于加快推动新型储能发展的指导意见[EB/OL].2021[2021-11-2]. https://www.ndrc.gov.cn/xxgk/zcfb/ghxwj /202107/t20210723_1291321.html?code=&state=123.
National Development and Reform Commission. National Energy Administration. National development and reform commission national energy guidance on accelerating the development of new energy storage[EB/OL].2021[2021-11-2]. https://www.ndrc.gov.cn/xxgk/zcfb/ghxwj 202107/t20210723_1291321.html?code=&state=123.
[2] 丁明, 吴杰, 张晶晶. 面向风电平抑的混合储能系统容量配置方法[J]. 太阳能学报, 2019, 40(3): 593-599.
DING M, WU J, ZHANG J J.Capacity optimization method of hybrid energy storage system for wind power smoothing[J]. Acta energiae solaris sinica, 2019, 40(3): 593-599.
[3] WAN C, QIAN W, ZHAO C, et al.Probabilistic forecasting based sizing and control of hybrid energy storage for wind power smoothing[J]. IEEE transactions on sustainable energy, 2021, 12(4): 1841-1852.
[4] 孙舟, 田贺平, 王伟贤, 等. 梯次利用电池储能系统参与用户侧削峰填谷的经济性研究[J]. 太阳能学报, 2021, 42(4): 95-100.
SUN Z, TIAN H P, WANG W X, et al.Research on economy of echelon utilization battery energy storage system for user-side peak load shifting[J]. Acta energiae solaris sinica, 2021, 42(4): 95-100.
[5] 李建林, 李雅欣, 吕超, 等. 退役动力电池梯次利用关键技术及现状分析[J].电力系统自动化, 2020, 44(13): 172-183.
LI J L, LI Y X, LYU C, et al.Key technology and research status of cascaded utilization in decommissioned power battery[J]. Automation of electric power systems, 2020, 44(13): 172-183.
[6] 范茂松, 金翼, 杨凯, 等. 退役LiFePO₄电池性能测评及储能应用[J]. 储能科学与技术, 2019, 8(2): 408-414.
FAN M S, JIN Y, YANG K, et al.Testing of the performance and energy-storage applied for retired LiFePO₄ batteries[J]. Energy storage science and technology, 2019, 8(2): 408-414.
[7] SAEZ-DE-IBARRA A, MARTINEZ-LASERNA E, STROE D, et al. Sizing study of second life li-ion batteries for enhancing renewable energy grid integration[J]. IEEE transactions on industry applications, 2016, 52(6): 4999-5008.
[8] 来小康. 关于动力电池梯次利用的一些思考[J]. 储能科学与技术, 2020, 9(2): 598-602.
LAI X K.Opinions on the reuse of retired power batteries[J]. Energy storage science and technology, 2020, 9(2): 598-602.
[9] 崔传世, 谢丽蓉, 包洪印, 等. 平抑风电功率波动退役电池储能系统容量配置[J]. 电源技术, 2020, 44(8):1185-1190.
CUI C S, XIE L R, BAO H Y, et al.Capacity configuration of retired battery energy storage system for smoothing wind power fluctuations[J]. Chinese journal of power sources, 2020, 44(8): 1185-1190.
[10] 马玲, 魏成伟, 谢丽蓉, 等. 基于退役动力电池的风储有功功率协调控制策略[J]. 太阳能学报, 2021, 42(10): 437-443.
MA L, WEI C W, XIE L R, et al.Coordinated control strategy for wind storage active power of decommissioned power battery[J]. Acta energiae solaris sinica, 2021, 42(10): 437-443.
[11] 王凯丰, 谢丽蓉, 乔颖, 等. 基于退役电池阈值设定和分级控制的弃风消纳模式[J]. 电力自动化设备, 2020, 40(10): 92-98.
WANG K F, XIE L R, QIAO Y, et al.Curtailed wind consumption mode based on threshold setting and hierarchical control of retired batteries[J]. Electric power automation equipment, 2020, 40(10): 92-98.
[12] 李建林, 修晓青, 刘道坦, 等. 计及政策激励的退役动力电池储能系统梯次应用研究[J]. 高电压技术, 2015, 41(8): 2562-2568.
LI J L, XIU X Q, LIU D T, et al.Research on second use of retired electric vehicle battery energy storage system considering policy incentive[J]. High voltage engineering, 2015, 41(8): 2562-2568.
[13] STROE D, SWIERCZYNSKI M, STROE A, et al.Degradation behavior of lithium-ion batteries based on lifetime models and field measured frequency regulation mission profile[J]. IEEE transactions on industry applications, 2016, 56(6): 5009-5018.
[14] GB/T 19963.1—2021, 风电场接入电力系统技术规定第1部分: 陆上风电[S].
GB/T 19963.1—2021, Technical specificatioon for connecting wind farm to power system—Part 1: On shore wind power[S].