刘颖英,王同勋,冯丹丹,等.基于多重判据的电压暂降故障源定位方法[J].中国电机工程学报,2015,35(1):103-111.Liu Yingying,Wang Tongxun,Feng Dandan,et al.Multiple criterions based voltage sag location method[J].Proceedings of the CSEE,2015,35(1):103-111(in Chinese).
[2]
Math H J Bollen.Understanding power quality problems:Voltage sags and interruptions[M].New Jersey:John Wiley &Sons,Inc.,2000.
[3]
肖先勇,杨洪耕,陈武,等.敏感设备电压暂降敏感度的模糊随机评估[J].中国电机工程学报,2009,29(34):90-95.Xiao Xianyong,Yang Honggeng,Chen Wu,et al.Fuzzy-random assessment method of equipment sensitivity to voltage sags[J].Proceedings of the CSEE,2009,29(34):90-95(in Chinese).
[4]
Chan J Y,Milanovic J V.Risk-based assessment of financial losses due to voltage sag[J].IEEE Transactions on Power Delivery,2011,26(2):492-500.
[5]
TC 3 of the Information Technology Industry Council.ITI (CBEMA) Curve Application note[S].Information Technology Industry Council (ITI),1 101 K Street NW,Suite 610,Washington DC 20005(202)737-8888.
[6]
杨晓东,李庚银,周明,等.电压暂降随机预估的自适应信赖域方法[J].中国电机工程学报,2011,31(4):39-44.Yang Xiaodong,Li Gengyin,Zhou Ming,et al.Adaptive trust region method for stochastic estimation of voltage sag[J].Proceedings of the CSEE,2011,31(4):39-44(in Chinese).
[7]
Zhang Y,Milanovic J V.Global voltage sag mitigation with FACTS-based devices[J].IEEE Transactions on Power Delivery,2010,25(4):2842-2850.
[8]
Yasir M,Kazemi S,Lehtonen M,et al.Optimal selection of voltage sag mitigation solution based on event method[C]//IEEE Electric Power Quality & Supply Reliability Conference,2012:1-6.
[9]
Domijan A,Montenegro A,Keri A J F,et al.Custom power devices:an interaction study[J].IEEE Transactions on Power Systems,2005,20(2):1111-1118.
[10]
Gupt S,Dixit A,Mishra N,et al.Custom power devices for power quality improvement:a review[J].International Journal of Research in Engineering and Applied Sciences,2012,2(2):1646-1659.
[11]
Ghosh A,Joshi A.The concept and operating principles of a mini custom power park[J].IEEE Transactions on Power Delivery,2004,19(4):1766-1774.
[12]
刘阳,肖先勇,刘旭娜,等.考虑用户定量需求的优质电力园区 DVR优化配置[J].电网技术,2015,39(3):823-828.Liu Yang,Xiao Xianyong,Liu Xuna,et al.Optimal configuration of DVR in premium power park considering customers’ quantitative demand[J].Power System Technology,2015,39(3):823-828(in Chinese).
[13]
CIGRE/CIRED/UIE Joint Working Group C4.110.Voltage dip immunity of equipment and installations[R].Paris,France:CIGRE,2010.
[14]
孔祥雨,徐永海,陶顺.基于一种电压暂降新型描述的敏感设备免疫能力评估[J].电工技术学报,2015,30(3):165-171.Kong Xiangyu,Xu Yonghai,Tao Shun.Sensitive equipment immunity assessment based on a new voltage sag description[J].Transactions of China Electrotechnical Society,2015,30(3):165-171(in Chinese).
[15]
Domijan A,Montenegro A,Keri A J F,et al.Simulation study of the world's first distributed premium power quality park[J].IEEE Transactions on Power Delivery,2005,20(2):1483-1492.
[16]
郑颖,刘旭娜,刘阳,等.基于过程免疫时间和可接受后果状态的优质园区供电质量等级划分[J].电网技术,2014,38(1):211-216.Zheng Ying,Liu Xuna,Liu Yang,et al.Classification of power supply quality levels for premium power park based on process immunity time and acceptable resulting status[J].Power System Technology,2014,38(1):211-216(in Chinese).
[17]
IEEE-SA Standards Board.IEEE Std 1668TM-2014,IEEE trail-use recommended practice for voltage sag and short interruption ride-through testing for end-use electrical equipment rated less than 1 000 V[S].New York:Power Systems Engineering Committee of IEEE Industry Applications Society,2014.
[18]
IEEE-SA Standards Board.IEEE Std 1564TM-2014.IEEE guide for voltage sag indices[S].New York:Transmission and Distribution Committee of the IEEE Power and Energy Society,2014.
[19]
Thasananutariya T,Chatratana S,McGranaghan M.Economic evaluation of solution alternatives for voltage sags and momentary interruptions[J].Electrical Power Quality and Utilisation,Magazine,2005,1(2):17-26.
[20]
Haslett D W.What is utility?[J].Economics and Philosophy,1990,6(1):65-94.
[21]
Ropo J P,Bleichrodt H.Does loss aversion exist? Experimental evidence from small stakes decisions under risk and uncertainty[J].Erasmus School of Economics,2014.
[22]
Tuncel T,Hammitt J K.A new meta-analysis on the WTP/WTA disparity[J].Journal of Environmental Economics and Management,2014,68(1):175-187.
[23]
Novemsky N,Kahneman D.The boundaries of loss aversion[J].Journal of Marketing Research,2005,42(2):119-128.
[24]
Kahneman D,Tversky A.Prospect theory:An analysis of decision under risk[J].Econometrica:Journal of the Econometric Society,1979:263-291.
[25]
Tversky A,Kahneman D.Advances in prospect theory:Cumulative representation of uncertainty[J].Journal of Risk and Uncertainty,1992,5(4):297-323.
[26]
谢识予,朱弘鑫.高级计量经济学[M].上海:复旦大学出版社,2005:241.Xie Shiyu,Zhu Hongxin.Advanced econometrics[M].Shanghai:Fudan University Press,2005:241(in Chinese).
[27]
Domencich T A,Mcfadden D.Urban travel demand[M].North Holland:Amsterdam,New York,1975.
[28]
陈瑞.电压暂降在配电网中的传播规律及仿真评估研究[D].北京:华北电力大学,2006.Chen Rui.Propagation and simulation evaluation of voltage sags in the distribution network[D].Beijing:North China Electric Power University,2006(in Chinese).
