Delfantia M, Quaiab S.Analysis and comparison of premium power park performances[J].Electric Power Systems Research, 2012, 83(1):176-184.
[2]
Ghosh A, Joshi A.The concept and operating principles of a mini custom power park[J].IEEE Trans on Power Delivery, 2004, 19(4):1766-1774.
[3]
Domijan A, Montenegro A, Keri A J F, et al. Simulation study of the world’s first distributed premium power quality park[J].IEEE Trans on Power Delivery, 2005, 20(2):1483-1492.
[4]
Keiichi H, Takashi T, Seiichi M.Study on field demonstration of multiple power quality levels system in Sendai[C]//International Telecommunications Energy Conference.Providence, USA:IEEE, 2006, 19-1:1-6.
[5]
Mohammed B S, Rama R K S, Ibrahim R, et al.Application of custom power park to improve power quality of sensitive loads[C]// IEEE 5th India International Conference on Power Electronics (IICPE).Delhi, India:IEEE, 2012:1-6.
[6]
王芳, 顾伟, 袁晓东, 等.面向智能电网的新一代电能质量管理平台[J].电力自动化设备, 2012, 32(7):134-139.Wang Fang, Gu Wei, Yuan Xiaodong, et al.Power quality management platform for smart grid[J].Electric Power Automation Equipment, 2012, 32(7):134-139(in Chinese).
[7]
Farhoodnea M, Mohamed A, Sharee H, et al.Power quality improvement using an enhanced premium power park configuration[C]//IEEE International Power Engineering and Optimization Conference (PEOCO).Melaka, Malaysia:IEEE, 2012:129-134.
[8]
Meral M E, Teke A, Bayindir K C, et al.Power quality improvement with an extended custom power park[J].Electric Power Systems Research, 2009(79):1553-1560.
[9]
Nara K, Hasegawa J, Oyama T, et al.FRIENDS:forwarding to future power delivery system[C]//Ninth International Conference on Harmonics and Quality of Power, Proceedings.Orlando, USA:IEEE 2000, 1:8-18.
[10]
Hirose K, Takeda T, Fukui A.Field demonstration on multiple power quality supply system in Sendai, Japan[C]//9th International Conference on Electrical Power Quality and Utilisation, EPQU. Barcelona, Spain:IEEE, 2007:9-11.
[11]
毛丽林, 黎灿兵, 何禹清.考虑用户需求和专家知识的电能质量综合评估[J].电网技术, 2011, 35(10):135-139.Mao Lilin, Li Canbing, He Yuqing.Comprehensive evaluation of power quality considering customer demands and expert knowledge[J].Power System Technology, 2011, 35(10):135-139(in Chinese).
[12]
何禹清, 彭建春, 毛丽林, 等.考虑用户不同需求的电能质量综合评估[J].电力系统自动化, 2010, 34(12):48-52.He Yuqing, Peng Jianchun, Mao Lilin, et al.Comprehensive evaluation of power quality considering customer demands[J].Automation of Electric Power Systems, 2010, 34(12):48-52(in Chinese).
[13]
林德清, 顾伟, 王元凯, 等.基于动态时间弯曲空间距离度量的电能质量综合评估[J].电网技术, 2013, 37(2):562-567.Lin Deqing, Gu Wei, Wang Yuankai, et al.Synthetic evaluation of power quality based on dynamic time warping spatial distance measurement[J].Power System Technology, 2013, 37(2):562-567(in Chinese).
[14]
李泓泽, 郭森, 唐辉, 等.基于改进变权物元可拓模型的电能质量综合评价[J].电网技术, 2013, 37(3):653-659. Li Hongze, Guo Sen, Tang Hui, et al.Comprehensive evaluation on power quality based on improved matter-element extension model with variable weight[J].Power System Technology, 2013, 37(3):653-659 (in Chinese).
[15]
董伟杰, 白晓民, 朱宁辉, 等.间歇式电源并网环境下电能质量问题研究[J].电网技术, 2013, 37(5):1265-1271.Dong Weijie, Bai Xiaomin, Zhu Ninghui, et al.Discussion on the power quality under grid-connection of intermittent power sources[J].Power System Technology, 2013, 37(5):1265-1271(in Chinese).
[16]
肖先勇, 马超, 杨洪耕, 等.用电压暂降严重程度和最大熵评估负荷电压暂降敏感度[J].中国电机工程学报, 2009, 29(31):115-121.Xiao Xianyong, Ma Chao, Yang Honggeng, et al.Stochastic estimation of equipment sensitivity to voltage sag based on voltage sag severity index and maximum entropy principle[J].Proceedings of the CSEE, 2009, 29(31):115-121(in Chinese).
[17]
Jhan Y C, Milanovic J V.Methodology for assessment of financial losses due to voltage sags and short interruptions[C]//9th International Conference on Electrical Power Quality and Utilisation, EPQU. Barcelona, Spain:IEEE, 2007:1-6.
[18]
肖先勇, 陈武, 杨洪耕.敏感设备电压暂降故障水平的多不确定性评估[J].中国电机工程学报, 2010, 30(10):36-42.Xiao Xianyong, Chen Wu, Yang Honggeng.Multi-uncertainty assessment for failure level of sensitive equipment caused by voltage sag[J].Proceedings of the CSEE, 2010, 30(10):36-42(in Chinese).
[19]
CIGRE/CIRED/UIE Joint Working Group C4.110.Voltage dip immunity of equipment and installations[R].Paris, France:CIGRE, 2010.
[20]
肖先勇, 陈卫东, 杨洪耕, 等.以用户满意度区间数为测度的电压暂降频次评估[J].中国电机工程学报, 2010, 30(16):104-110.Xiao Xianyong, Chen Weidong, Yang Honggeng, et al.Voltage sag frequency assessment under measure of interval data of customer satisfaction[J].Proceedings of the CSEE, 2010, 30(16):104-110(in Chinese).
[21]
张志禹, 满蔚仕, 郗垒, 等.快速S变换在电能质量分析中的应用[J].电网技术, 2013, 37(5):1285-1290.Zhang Zhiyu, Man Weishi, Xi Lei, et al.Application of fast S-Transform in power quality analysis[J].Power System Technology, 2013, 37(5):1285-1290(in Chinese).
[22]
Wagner V E, Andreshak A A, Staniak J P.Power quality and factory automation[J].IEEE Trans on Industry Applications, 1990, 26(4):620-626.
[23]
Gupta C P, Milanovic J V.Probabilistic assessment of equipment trips due to voltage sags[J].IEEE Trans on Power Delivery, 2006, 21(2):711-718.
