Abstract:The renewable energy in DC micro-gird system, such as wind and solar power, has the features of unpredictable power and intermittent outputs. To enhance the stability and reliability, it is necessary to combine energy storage components. The storage unit is made up of hybrid energy which consists of super capacitors and batteries. In this paper, a frequency dividing coordinated control strategy is introduced, which is suitable for DC micro-grid. The information of the power fluctuation can be extracted from the DC bus voltage, and then the invisible filters, namely a low-pass filter, a band-pass filter and a high-pass filter, are formed through the DC bus voltage loop and super capacitor voltage loop. The high, medium and low frequency power fluctuations are absorbed by the bus capacitor, the super capacitor and the battery respectively so as to fully exploit the advantages of battery and super capacitor, such as the high energy density of batteries, the high power density and long cycling life of super capacitor. Hence the storage performance is enhanced. Moreover, without adding extra hardware, the invisible filters are fulfilled by software which is flexible and adjustable. Finally, the experimental results verify the effectiveness of the proposed hybrid energy storage control strategy.
李武华, 徐驰, 禹红斌, 顾云杰, 胡斯登, 何湘宁. 直流微网系统中混合储能分频协调控制策略[J]. 电工技术学报, 2016, 31(14): 84-92.
Li Wuhua, Xu Chi, Yu Hongbin, Gu Yunjie, Hu Sideng, He Xiangning. Frequency Dividing Coordinated Control Strategy for Hybrid Energy Storage System of DC Micro-Grid. Transactions of China Electrotechnical Society, 2016, 31(14): 84-92.
[1] 王成山, 武震, 李鹏. 微电网关键技术研究[J]. 电工技术学报, 2014, 29(2): 1-12. Wang Chengshan, Wu Zhen, Li Peng. Research on key technologies of microgrid[J]. Transactions of China Electrotechnical Society, 2014, 29(2): 1-12. [2] 唐西胜, 武鑫, 齐智平. 超级电容器蓄电池混合储能独立光伏系统研究[J]. 太阳能学报, 2007, 28(2): 178-183. Tang Xisheng, Wu Xin, Qi Zhiping. Study on a stand-alone PV system with battery/ultracapacitor hybrid energy storage[J]. Acta Energiae Solaris Sinic, 2007, 28(2): 178-183. [3] 姜世公, 李琰, 王卫. 一种微网系统孤岛运行条件下的能量管理策略[J]. 电工技术学报, 2014, 29(2): 130-135. Jiang Shigong, Li Yan, Wang Wei. A novel power management strategy for microgrid on islanding mode[J]. Transactions of China Electrotechnical Society, 2014, 29(2): 130-135. [4] 郭思琪, 袁越, 张新松, 等. 多时间尺度协调控制的独立微网能量管理策略[J]. 电工技术学报, 2014, 29(2): 122-129. Guo Siqi, Yuan Yue, Zhang Xinsong, et al. Energy management strategy of isolated microgrid based on multi-time scale coordinated control[J]. Transactions of China Electrotechnical Society, 2014, 29(2): 122-129. [5] 张犁, 孙凯, 吴田进, 等. 基于光伏发电的直流微网能量变换和管理[J]. 电工技术学报, 2014, 29(2): 248-254. Zhang Li, Sun Kai, Wu Tianjin, et al. Energy conversion and management for DC microgrid based on photovoltaic generation[J]. Transactions of China Electrotechnical Society, 2014, 29(2): 248-254. [6] 张国驹, 唐西胜, 齐智平. 超级电容器与蓄电池混合储能系统在微网中的应用[J]. 电力系统自动化, 2010, 34(12): 85-89. Zhang Guoju, Tang Xisheng, Qi Zhiping. Application of hybrid energy storage system of super-capacitors and batteries in a microgrid[J]. Automation of Electric Power Systems, 2010, 34(12): 85-89. [7] 杨欢, 赵荣祥, 辛焕海, 等. 海岛电网发展现状与研究动态[J]. 电工技术学报, 2013, 28(11): 95-105. Yang Huan, Zhao Rongxiang, Xin Huanhai, et al. Development and research status of island power systems[J]. Transactions of China Electrotechnical Society, 2013, 28(11): 95-105. [8] 周林, 黄勇, 郭珂, 等. 微电网储能技术研究综述[J]. 电力系统保护与控制, 2011, 39(7): 147-152. Zhou Lin, Huang Yong, Guo Ke, et al. A survey of energy storage technology for micro grid[J]. Power System Protection and Control, 2011, 39(7): 147-152. [9] 桑丙玉, 陶以彬, 郑高, 等. 超级电容-蓄电池混合储能拓扑结构和控制策略研究[J]. 电力系统保护与控制, 2014, 42(2): 1-6. Sang Bingyu, Tao Yibin, Zheng Gao, et al. Research on topology and control strategy of the super- capacitor and battery hybrid energy storage[J]. Power System Protection and Control, 2014, 42(2): 1-6. [10] 陈珊珊, 马建伟. 超级电容和蓄电池混合储能系统的THIPWM算法研究[J]. 电力系统保护与控制, 2014, 42(3): 111-115. Chen Shanshan, Ma Jianwei. Research of super capacitor and battery energy storage system with the THIPWM[J]. Power System Protection and Control, 2014, 42(3): 111-115. [11] 丁明, 林根德, 陈自年, 等. 一种适用于混合储能系统的控制策略[J]. 中国电机工程学报, 2012, 32(7): 1-6. Ding Ming, Lin Gende, Chen Zinian, et al. A control strategy for hybrid energy storage systems[J]. Pro- ceedings of the CSEE, 2012, 32(7): 1-6. [12] Dougal R, Liu S, White R. Power and life extension of battery-ultracapacitor hybrids[J]. IEEE Transa- ctions on Components and Packaging Technologies, 2002, 25(1): 120-131. [13] 刘建涛, 张建成. 一种超级电容器-蓄电池混合储能系统控制方法[J]. 电力科学与工程, 2011, 27(1): 1-4. Liu Jiantao, Zhang Jiancheng. Research on control method of hybrid energy storage system of EDLCs and batterys[J]. Electric Power Science and Engineering, 2011, 27(1): 1-4. [14] 李逢兵, 谢开贵, 张雪松, 等. 基于蓄电池充放电状态的混合储能系统控制策略设计[J]. 电力系统自动化, 2013, 37(1): 70-75. Li Fengbing, Xie Kaigui, Zhang Xuesong, et al. Control strategy design for hybrid energy storage system based on charge/discharge status of lithium- ion battery[J]. Automation of Electric Power Systems, 2013, 37(1): 70-75. [15] Zhang Yu, Jiang Zhenhua. Dynamic power sharing strategy for active hybrid energy storage systems[C]// Proceedings of IEEE Conference on Vehicle Power and Propulsion, Dearborn, USA, 2009: 558-563. [16] Zhou H, Bhattacharya T, Tran D, et al. Composite energy storage system involving battery and ultracapacitor with dynamic energy management in microgrid applications[J]. IEEE Transactions on Power Electronics, 2011, 26(3): 923-930. [17] Abbey C, Strunz K, Jo ' os G. A knowledge-based approach for control of two-level energy storage for wind energy systems[J]. IEEE Transactions on Energy Conversion, 2009, 24(2): 539-547. [18] Mendis N, Muttaqi K, Perera S. Active power management of a supercapacitor-battery hybrid energy storage system for standalone operation of DFIG based wind turbines[C]//Proceedings of IEEE Industry Applications Society Annual Meeting, Las Vegas, USA, 2012: 1-8.
2016, Vol. 31 
