Spallarossa C E,Green T C,Lin Chang,et al.A DC voltage control strategy for MMC-MTDC grids incorporation multiple master stations[C]//IEEE PES T&D Conference and Exposition.Birmingham,2014:1-5.
[2]
Jovcic D,Hajian M,Zhang H,et al.Power flow control in DC transmission grids using mechanical and semiconductor based DC/DC devices[C]//10th IET International Conference on AC and DC Power Transmission.Birmingham,2012:1-6.
[3]
Veilleux E,Ooi B T.Power flow analysis in multi-terminal HVDC grid[C]//IEEE PES Power Systems Conference and Exposition(PSCE).Phoenix,2011:1-7.
[4]
许烽,徐政,刘高任.新型直流电网潮流控制器及其在环网式直流电网中的应用[J].电网技术,2014,38(10):2644-2650.Xu Feng,Xu Zheng,Liu Gaoren.A neotype of DC power flow controller and its applications in meshed DC grids[J].2014,38(10):2644-2650(in Chinese).
[5]
Xu Feng,Xu Zheng.A modular multilevel power flow controller for meshed HVDC grids[J].Science China Technological Sciences,2014,57(9):1773-1784.
[6]
徐政,薛英林,张哲任.大容量架空线柔性直流输电关键技术及前景展望[J].中国电机工程学报,2014,34(29):1-12.Xu Zheng,Xue Yinglin,Zhang Zheren.VSC-HVDC technology suitable for bulk power overhead line transmission[J].Proceedings of the CSEE,2014,34(29):1-12 (in Chinese).
[7]
汤广福,罗湘,魏晓光.多端直流输电与直流电网技术[J].中国电机工程学报,2013,33(10):8-17.Tang Guangfu,Luo Xiang,Wei Xiaoguang.Multi-terminal HVDC and DC-grid technology[J].Proceedings of the CSEE,2013,33(10):8-17 (in Chinese).
[8]
王宇.直流电网控制方法及仿真研究[D].北京:中国电力科学研究院,2013.
[9]
张文亮,汤涌,曾南超.多端高压直流输电技术及应用前景[J].电网技术,2010,34(9):1-6.Zhang Wenliang,Tang Yong,Zeng Nanchao.Multi-terminal HVDC transmission technologies and its application prospects in China[J].Power System Technology,2010,34(9):1-6(in Chinese).
[10]
张丽英,叶廷路,辛耀中,等.大规模风电接入电网的相关问题及措施[J].中国电机工程学报.2010,30(25):1-9.Zhang Liying,Ye Tinglu,Xin Yaozhong.Problems and measures of power grid accommodating large scale wind power[J].Proceedings of the CSEE,2010,30(25):1-9(in Chinese).
[11]
徐政等.柔性直流输电系统[M].北京:机械工业出版社,2013:128-141.
[12]
Pinto R,Rodrigues S F,Bauer P,et al.Comparison of direct voltage control methods of multi-terminal DC (MTDC) networks through modular dynamic models[C]//Proceedings of the 14th European Conference on Power Electronics and Applications(EPE 2011),Birmingham,2011:1-10.
[13]
Despouys O.Offshore DC grids:impact of topology on power flow control[C]//10th IET International Conference on AC and DC Power Transmission.Birmingham,2012:1-6.
[14]
Van Hertem D,Verboomen J,Purchala K,et al.Usefulness of DC power flow for active power flow analysis with flow controlling devices[C]//The 8th IEE Internationa Conference on AC and DC Power Transmission.Birmingham,2006:58-62.
[15]
Jovcic D.Bidirectional high power DC transformer[J].IEEE Transactions on Power Delivery,2009,24(4):2276-2283.
[16]
Mohamed A,Mohammed O.Power flow control in DC distribution systems[C]//North American Power Symposimu(NAPS).Sao Paulo:IEEE,2010:1-7.
[17]
Veilleux E,Ooi B T.Multiterminal HVDC with thyristor power flow controller[J].IEEE Transactions on Power Delivery,2012,27(3):1205-1212.
[18]
Barker C D,Whitehouse R S.A current flow controller for use in HVDC grids[C]//10th IET International Conference on AC and DC Power Transmission.Birmingham,2012:1-5.
[19]
Mu Qing,Liang Jun,Li Yalou,et al.Power flow control devices in DC grids[C]//IEEE Power and Energy Society General Meeting.Birmingham:IEEE,2012:1-7.
[20]
Veilleux E,Ooi B T .Mluti-terminal HVDC grid with power flow controllability[C] //CIGRE.Paris,2012:B4-30.
