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.
[3]
梁海峰. 柔性直流输电系统控制策略研究及其实验系统的实现[D]. 北京:华北电力大学,2009. LIANG Haifeng. The research on control strategy of VSC-HVDC and its experimental system realization[D]. Beijing:North China Electric Power University,2009.
[4]
LI Xiaolin,YUAN Zhichang,FU Jiao,et al. Nanao multi-terminal VSC-HVDC project for integrating large-scale wind generation[C]//2014 IEEE Power Engineering Society General Meeting.Washington DC, United States:IEEE, 2014:1-5.
[5]
孙文博. 多端柔性直流输电系统及控制策略研究[D]. 北京:华北电力大学,2012.
[6]
FU Jiao,YUAN Zhichang,WANG Yizhen,et al. Control strategy of system coordination in Nanao multi-terminal VSC-HVDC project for wind integration[C]//2014 IEEE Power Engineering Society General Meeting.Washington DC, United States:IEEE,2014:1-5.
[7]
陈 霞. 基于多端直流输电的风电并网技术研究[D]. 武汉:华中科技大学,2012.
[8]
陈 谦. 新型多端直流输电系统的运行与控制[D]. 南京:东南大学,2004.
[9]
王 松,李庚银,周 明. VSC-MTDC控制系统的参数优化及柔性调整策略[J]. 电网技术,2015,39(2):380-386. WANG Song,LI Gengyin,ZHOU Ming. Parameter optimization and soft regulation strategy of VSC-MTDC control system[J]. Power System Technology,2015,39(2):380-386.
[10]
梁 盟. 柔性多端直流输电系统的控制研究[D]. 北京:北京交通大学,2012. LIANG Meng. Research on control of VSC-MTDC[D]. Beijing:Beijing Jiaotong University,2012.
[11]
胡永瑞. 多端直流输电系统若干问题研究[D]. 杭州:浙江大学,2013. HU Yongrui. Research on several issues in MTDC transmission system[D]. Hangzhou:Zhejiang University,2013.
[12]
袁旭峰,程时杰. 多端直流输电技术及其发展[J]. 继电器,2006,24(19):61-67. YUAN Xufeng,CHENG Shijie. Multi-terminal HVDC transmission technology and its development[J]. Relay,2006,24(19):61-67.
[13]
周国梁,石新春. 一种新型拓扑的背靠背柔性直流输电系统及其仿真[J]. 高压电器,2008,44(2);104-109. ZHOU Guoliang,SHI Xinchun. A novel HVDC-flexible system and its simulation[J]. High Voltage Apparatus,2008,44(2):104-109.
[14]
陈树勇,徐林岩,孙 栩,等. 基于多端柔性直流输电的风电并网控制研究[J]. 中国电机工程学报,2014,34(S1):32-38. CHEN Shuyong,XU Linyan,SUN Xu,et al. The control of wind power integration based on multi-terminal high voltage DC transmission with voltage source converter[J]. Proceedings of the CSEE,2014,34(S1): 32-38.
[15]
汤广福. 基于电压源换流器的高压直流输电技术[M]. 北京:中国电力出版社,2010.
[16]
张 兴,张崇巍. PWM整流器及其控制[M]. 北京:机械工业出版社,2012.
[17]
李环平,杨金明. 基于 PSCAD_EMTDC 的大型并网风电场建模与仿真[J]. 电力系统保护与控制,2009,37(21):62-66. LI Huanping,YANG Jinming. Model and simulation of large grid connected wind farm based on PSCAD_EMTDC[J]. Power System Protection and Control,2009,37(21):62-66.
[18]
CONROY J,WATSON R. Aggregate modelling of wind farms containing full-converter wind turbine generators with permanent magnet synchronous machines-transient stability studies[J]. IET Renewable Power Generation,2009,3(1):39-52.
[19]
夏 ?,李 征,蔡 旭,等. 基于直驱式永磁同步发电机组的风电场动态建模[J]. 电网技术,2014,38(6):1439-1445. XIA Yue,LI Zheng,CAI Xu,et al. Dynamic modeling of wind farm composed of direct-driven permanent magnet synchronous generators[J]. Power System Technology,2014,38(6):1439-1445.
[20]
杨勇波,江 波,杨华云,等. 风电场动态等值及其在暂态稳定分析中的应用[J]. 中国电力,2011,44(7):66-70. YANG Yongbo,JIANG Bo,YANC Huayun,et al. Dynamic equivalence of wind farms and its application to power system transient stability analysis[J]. Electric Power,2011,44(7):66-70.
[21]
肖宏峰, 基于单纯形多向搜索的大规模进化优化算法[D]. 长沙:中南大学,2009. XIAO Hongfeng. Large scale evolution optimization algorithm based on simplex multi-direction search[D]. Changsha:Central South University,2009.
