[1] |
匡生, 王蓓蓓. 考虑储能寿命和参与调频服务的风储联合运行优化策略[J]. 发电技术, 2020, 41(1):73-78.
|
|
KUANG Sheng, WANG Beibei. Optimization strategy of wind sorage joint operation considering energy storage life and participating in frequency modulation service[J]. Power Generation Technology, 2020, 41(1):73-78.
|
[2] |
艾欣, 董春发. 储能技术在新能源电力系统中的研究综述[J]. 现代电力, 2015, 32(5): 1-9.
|
|
AI Xin, DONG Chunfa. Review on the application of energy storage technology in power system with renewable energy sources[J]. Modern Electric Power, 2015, 32(5): 1-9.
|
[3] |
陈晓光, 杨秀媛, 卜思齐, 等. 考虑经济功能性的风电场储能系统容量配置[J]. 发电技术, 2022, 43(2):341-352.
|
|
CHEN Xiaoguang, YANG Xiuyuan, BU Siqi, et al. Capacity allocation of wind farm energy storage system considering economic function[J]. Power Generation Technology, 2022, 43(2):341-352.
|
[4] |
GE L J, ZHANG S, BAI X Z, et al. Optimal capacity allocation of energy storage system considering uncertainty of load and wind generation[J]. Mathematical Problems in Engineering, 2020(10):1-11.
|
[5] |
王玥娇, 张兴友, 郭俊山. 储能技术在高比例可再生能源电力系统中的应用[J]. 山东电力技术, 2021, 48(7): 19-25.
|
|
WANG Yuejiao, ZHANG Xingyou, GUO Junshan. Review on the application of energy storage technology in power system with high proportion of renewable energy[J]. Shandong Electric Power, 2021, 48(7): 19-25.
|
[6] |
杜佳耘, 雷勇, 李永凯, 等. 基于参数优化变分模态分解的混合储能功率分配策略[J]. 现代电力, 2021, 38(1): 51-59.
|
|
DU Jiayun, LEI Yong, LI Yongkai, et al. Hybrid energy storage strategy based on parameter optimized variational mode decomposition[J]. Modern Electric Power, 2021, 38(1): 51-59.
|
[7] |
陈骁. 计及混合储能系统能量分配策略的微网优化调度[D]. 重庆: 重庆大学, 2018.
|
|
CHEN Xiao. Optimal scheduling of microgrid considering energy allocation strategy of hybrid energy storage system[D]. Chongqing: Chongqing University, 2018.
|
[8] |
赵廉, 申欣欣. PI控制策略在储能变流器中的运用研究[J]. 新型工业化, 2020, 10(11): 4-5, 17.
|
[9] |
薛宇石, 徐少华, 李建林, 等. PI控制下储能并网PCS多机并联稳定性分析[J]. 高电压技术, 2018, 44(1): 136-144.
|
|
XUE Yushi, XU Shaohua, LI Jianlin, et al. Stability analysis of grid-connected multi-parallel PCS for energy storage system under PI control[J]. High Voltage Engineering, 2018, 44(1): 136-144.
|
[10] |
SINGH V P, MOHANTY S R, KISHOR N, et al. Robust h-infinity load frequency control in hybrid distributed generation system[J]. International Journal of Electrical Power & Energy Systems, 2013, 46: 294-305.
doi: 10.1016/j.ijepes.2012.10.015
URL
|
[11] |
ZHU D H, HUG-GLANZMANN G. Robust control design for integration of energy storage into frequency regulation[C]// 2012 3rd IEEE PES Innovative Smart Grid Technologies Europe. Berlin, Germany: IEEE, 2012: 1-8.
|
[12] |
INTHAMOUSSOU F A, PEGUEROLES-QUERALT J, BIANCHI F D. Control of a supercapacitor energy storage system for microgrid applications[J]. IEEE Transactions on Energy Conversion, 2013, 28(3): 690-697.
doi: 10.1109/TEC.2013.2260752
URL
|
[13] |
KAIROUS D, WAMKEUE R. DFIG-based fuzzy sliding-mode control of WECS with a flywheel energy storage[J]. Electric Power Systems Research, 2012, 93: 16-23.
doi: 10.1016/j.epsr.2012.07.002
URL
|
[14] |
朱晓荣, 刘世鹏. 基于滑模控制的双馈风电机组网侧变流器低电压穿越控制策略[J]. 现代电力, 2016, 33(4): 52-58.
|
|
ZHU Xiaorong, LIU Shipeng. A LVRT control strategy for grid-side converter in DFIG based on sliding mode control[J]. Modern Electric Power, 2016, 33(4): 52-58.
|
[15] |
NGUYEN T D, TSENG K J, ZHANG C, et al. Model predictive control of a novel axial flux permanent magnet machine for flywheel energy storage system[C]// 2010 Conference Proceedings IPEC. Singapore: IEEE, 2010: 519-524.
|
[16] |
ZHANG K, MAO C X, LU J M, et al. Optimal control of state-of-charge of superconducting magnetic energy storage for wind power system[J]. IET Renewable Power Generation, 2014, 8(1): 58-66.
doi: 10.1049/iet-rpg.2013.0003
URL
|
[17] |
李琪, 李灏佺. 储能在山西构建高比例可再生能源电力系统中的应用前景及支持政策分析[J]. 电气时代, 2021(9): 29-32.
|
[18] |
贾学翠, 李相俊, 万君, 等. 平抑电网大功率扰动的规模化电池储能系统控制方法[J]. 电力建设, 2020, 41(6): 69-76.
|
|
JIA Xuecui, LI Xiangjun, WAN Jun, et al. Control method of large-scale battery energy storage system for suppressing the disturbance of power grid[J]. Electric Power Construction, 2020, 41(6): 69-76.
|
[19] |
YAZDANI A, IRAVANI R. Voltage-Sourced Converters in Power Systems[M]. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2010.
|
[20] |
KRAUSE P, WASYNCZUK O, SUDHOFF S, et al. Analysis of electric machinery and drive systems[M]. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013.
|
[21] |
MILANO F. A python-based software tool for power system analysis[C]// 2013 IEEE Power & Energy Society General Meeting. Vancouver, BC, Canada: IEEE, 2013: 1-5.
|
[22] |
CHINIFOROOSH S, JATSKEVICH J, YAZDANI A, et al. Definitions and applications of dynamic average models for analysis of power systems[J]. IEEE Transactions on Power Delivery, 2010, 25(4): 2655-2669.
doi: 10.1109/TPWRD.2010.2043859
URL
|
[23] |
SHEPHERD C M. Design of primary and secondary cells[J]. Journal of the Electrochemical Society, 1965, 112(7): 657.
doi: 10.1149/1.2423659
URL
|
[24] |
ESMAILI A, NOVAKOVIC B, NASIRI A, et al. A hybrid system of Li-ion capacitors and flow battery for dynamic wind energy support[J]. IEEE Transactions on Industry Applications, 2013, 49(4): 1649-1657.
doi: 10.1109/TIA.2013.2255112
URL
|
[25] |
MURAD M A A, MILANO F. Chattering-free modelling and simulation of power systems with inclusion of filippov theory[J]. Electric Power Systems Research, 2020, 189: 106727.
doi: 10.1016/j.epsr.2020.106727
URL
|
[26] |
周克敏, DOYLE J C, GLOVER K. 鲁棒与最优控制[M]. 毛剑琴,钟宜生,林岩,等译. 北京: 国防工业出版社, 2002.
|
[27] |
UTKIN V, GULDNER J, SHI J. Sliding Mode Control in Electro-Mechanical Systems[M]. 2nd edtion. CRC Press, 2009.
|
[28] |
PERNINGE M, KNAZKINS V, AMELIN M, et al. Risk estimation of critical time to voltage instability induced by saddle-node bifurcation[J]. IEEE Transactions on Power Systems, 2010, 25(3): 1600-1610.
doi: 10.1109/TPWRS.2009.2039760
URL
|
[29] |
MILANO F. Power system scripting and modelling[M]. Springer, 2010.
|