[1] Lu N,Weimar M R,Makarov Y V,Ma J,Viswanathan V V. The wide-area energy storage and management system-battery storage evaluation[R]. Washington:Pacific Northwest National Laboratory,2009.
[2] Cheng Shijie(程时杰),Wen Jinyu(文劲宇),Sun Haishun(孙海顺).储能技术及其在现代电力系统中的应用[J]. Electrotechnical Journal (电气应用),2005,24(4):1-8.
[3] Denholm P,Ela E,Kirby B,Milligan M. The role of energy storage with renewable electricity generation[EB/OL]. http://digitalcommons. library.unlv.edu/renew_pubs/5.
[4] International Energy Agency. Variability of wind power and other renewables:Management options and strategies[R]. Paris:International Energy Agency,2005.
[5] Kear G,Shah AA,Walsh F C. Development of the all-vanadium redox flow battery for energy storage:A review of technological, financial and policy aspects[J]. Int. J. Energy Res . doi:10. 1002/er. 1863(2011).
[6] Electric Power Research Institute. Electricity energy storage technology options:A white paper primer on applications, costs and benefits[R]. Palo Alto:EPRI,2010.
[7] Electric Power Research Institute. Vanadium redox flow batteries:An in-depth analysis[R]. Palo Alto:EPRI,2007.
[8] Zhang Huamin(张华民),Wang Xiaoli(王晓丽). Recent progress on vanadium flow battery technologies[J]. Energy Storage Scienceand Technology (储能科学与技术), 2013,2(3):281-288.
[9] Zhang Yu(张宇),Zhang Huamin(张华民). Latest progress on energy storage for grid system and vanadium flow battery technologies[J]. Advances in New and Renewable Energy (新能源进展),2013,1(1):106-113.
[10] Chen Jizhong,Xu Ziqiang,Li Bei. Research on the characteristics of the vanadium redox-flow battery in power systems applications[J]. Journal of Power Sources ,2013,241:396-399.
[11] Shah A A,Al-Fetlawi H,Walsh F C. Dynamic modelling of hydrogen evolution effects in the all-vanadium redox flow battery[J]. Electrochim Acta ,2010,55:1125-1139 .
[12] Watt-Smith M J,Ridley P,Wills R G A,Shaha A A,Walsha F C. The importance of key operational variables and electrolyte monitoring to the performance of an all vanadium redox flow battery[J]. J. Chem. Technol. Biotechnol. ,2013,88:126-138.
[13] Kaizuka T,Sasaki T. Evaluation of control maintaining electrical power quality by use of rechargeable battery system[C]//Columbus:IEEE PES Winter Meeting Columbus,2001.
[14] Chen Wei(陈伟),Meng Fanming(孟凡明),Li Xiaobin(李晓兵),Liu Xiaojiang(刘效疆),Ma Haibo(马海波). Performance of 10 kW cell stack of vanadium redox flow battery[J]. Chinese Journal of Power Sources (电源技术),2013,37(8):1347-1348.
[15] Chen Maobin(陈茂斌),Meng Fanming(孟凡明),Li Xiaobin(李晓兵), et al . Charge-discharge performance all-vanadium battery pack[J]. Chinese Journal of Power Sources (电源技术),2008,32(4):225-227.
[16] Hu Guozhen(胡国珍),Duan Shanxu(段善旭),Cai Tao(蔡涛),Chen Changsong(陈昌松). Sizing and cost analysis of photovoltaic generation system based on vanadium redox battery[J]. Transactions of China Electrotechnical Society (电工技术学报),2012,27(5):260-267.
[17] Li Gengfeng(李更丰),Bie Chaohong(别朝红),Hua Bowen(华博文),Xie Haipeng(谢海鹏). Reliability evaluation of distribution systems including micro-grids considering demand response[EB/OL]. [2013-02-04]. http://www.paper.edu.cn/releasepaper/content/201302-34.
[18] Chen Jian(陈健),Wang Chengshan(王成山),Zhao Bo(赵波),Zhang Xuesong(张雪松). Economic operation optimization of a stand-alone microgrid system considering characterristics of energy storage system[J]. Automation of Electric Power Systems (电力系统自动化),2012,36(20):25-31.
[19] Li Bei(李蓓),Guo Jianbo(郭剑波). A control strategy for battery energy storage system to level wind power output[J]. Power System Technology (电网技术),2012,36(8):38-43.
[20] Wang Chengshan(王成山),Yu Bo(于波),Xiao Jun(肖峻),Guo Li(郭力). Sizing of energy storage systems for output smoothing of renewable energy systems[J]. Proceedings of the CSEE (中国电机工程学报),2012,32(16):1-8.
[21] Bao Guannan(鲍冠南),Lu Chao(陆超),Yuan Zhichang(袁志昌),Han Yingduo(韩英铎). Load shift time optimization strategy of battery energy storage system based on dynamic programming[J]. Automation of Electric Power Systems (电力系统自动化),2012,36(12):11-16. |
