Bitterly J G.Flywheel technology:past,present,and 21 st century projections[J].IEEE Aerospace and Electronic Systems Magazine,1998,13(8):13-16.
[2]
Song Y D,Li P,Liu W,et al.An overview of renewable wind energy conversion system modeling and control[J].Measurement and Control,2010,43(7):203-208.
[3]
Hebner R,Beno J,Walls A.Flywheel batteries come around again[J].IEEE Spectrum,2002,39(4):46-51.
[4]
Liu H,Jiang J.Flywheel energy storage:an upswing technology for energy sustainability[J].Energy and Buildings,2007,39(5):599-604.
[5]
周龙,齐智平.解决配电网电压暂降问题的飞轮储能单元建模与仿真[J].电网技术,2009,33(19):152-158. Zhou Long, Qi Zhiping.Modeling and simulation of flywheel energy storage unit for voltage sag in distribution network[J].Power System Technology,2009,33(19):152-158(in Chinese).
[6]
蒋书运,卫海岗,沈祖培.飞轮储能技术研究的发展现状[J].太阳能学报,2000,21(4):427-433. Jiang Shuyun,Wei Haigang,Shen Zupei.Recent development of the research on flywheel energy storage technology[J].Acta Energy Solaris Sinic,2000,21(4):427-433(in Chinese).
[7]
Hebner R,Beno J,Walls A.Flywheel batteries come around again[J]. IEEE Spectrum,2002,39(4):46-51.
[8]
张文亮,丘明,来小康.储能技术在电力系统中的应用[J].电网技术,2008,32(7):1-9. Zhang Wenliang,Qiu Ming,Lai Xiaokang.Application of energy storage technologies in power grids[J].Power System Technology,2008,32(7):1-9(in Chinese).
[9]
Liu T K,Juang J G.A single neuron PID control for twin rotor MIMO system[C]//IEEE/ASME International Conference on Advanced Intelligent Mechatronics,2009.IEEE:186-191.
[10]
Zhu J,Jiang X.Huang L.(2008) A novel dynamic voltage restorer with flywheel energy storage system[C]//International Conference on Electrical Machines and Systems,ICEMS 2008:1995-1999.
[11]
蒙永民,李铁才,荀尚峰.飞轮储能分布式电能控制技术放电部分的仿真研究[J].电网技术,2008,32(24):60-64. Meng Yongmin,Li Tiecai,Xun Shangfeng.Simulation of discharge section in flywheel energy storage using distributed electric energy control technology[J].Power System Technology,2008,32(24):60-64(in Chinese).
[12]
王磊,杜晓强,宋永端.用于风电场的飞轮储能矩阵系统协调控制[J].电网技术,2013,37(12):3406-3412. Wang Lei,Du Xiaoqiang,Song Yongduan.Coordinated control of flywheel energy storage matrix system for wind farm[J].Power System Technology,2013,37(12):3406-3412(in Chinese).
[13]
Lin C E,Viviani G L.Hierarchical economic dispatch for piecewise quadratic cost functions[J].IEEE Trans on Power Apparatus and Systems,1984,PAS-103(6):1170-1175.
[14]
Dommel H W,Tinney W F.Optimal power flow solutions[J].IEEE Trans on Power Apparatus and Systems,1968,PAS-87(10):1866-1876.
[15]
刘莉,陈学允.基于模糊遗传算法的配电网络重构[J].中国电机工程学报,2000,20(2):66-69. Liu Li,Chen Xueyun.Reconfiguration of distribution networks based on fuzzy genetic algorithms[J].Proceedings of the CSEE,2000,20(2):66-69(in Chinese).
[16]
Gaing Z L.Particle swarm optimization to solving the economic dispatch considering the generator constraints[J].IEEE Trans on Power Systems,2003,18(3):1187-1195.
[17]
Das A,Lewis F L.Distributed adaptive control for synchronization of unknown nonlinear networked systems[J].Automatica,2010,46(12):2014-2021.
[18]
Olfati-Saber R,Fax J A,Murray R M.Consensus and cooperation in networked multi-agent systems[J].Proceedings of the IEEE,2007,95(1):215-233.
[19]
Cao Y,Yu W,Ren W,et al.An overview of recent progress in the study of distributed multi-agent coordination[J].IEEE Trans on Industrial Informatics,2013,9(1):427-438.
[20]
Yu W,Chen G,Cao M.Some necessary and sufficient conditions for second-order consensus in multi-agent dynamical systems[J].Automatica,2010,46(6):1089-1095.
[21]
Zhang Z,Chow M Y.Convergence analysis of the incremental cost consensus algorithm under different communication network topologies in a smart grid[J].IEEE Trans on Power Systems,2012,27(4):1761-1768.
[22]
Bidram A,Davoudi A,Lewis F L,et al.Distributed cooperative secondary control of microgrids using feedback linearization[J].IEEE Trans on Power Systems,2013,28(3):3462-3470.
[23]
DeGroot M H.Reaching a consensus[J].Journal of the American Statistical Association,1974 (345):118-121.
[24]
Ren W.Information consensus in multivehicle cooperative control[J].IEEE Control Systems Magazine,2007,27(2):71-82.
[25]
Kingston D B,Beard R W.Discrete-time average-consensus under switching network topologies[C]//American Control Conference, Minneapolis, IEEE,2006:6.
[26]
王磊,杜晓强,宋永端.用于飞轮储能单元的神经元自适应比例-积分-微分控制算法[J].电网技术,2014,38(1):74-79. Wang Lei,Du Xiaoqiang,Song Yongduan.Neuron adaptive PID control algorithm with application to flywheel energy storage system unit[J].Power System Technology,2014,38(1):74-79(in Chinese).
