下载掌阅APP,畅读海量书库
立即打开
[1]汪颖,周杨,肖先勇,等.电压暂降问题研究现状及面临的挑战[J].供用电,2018,35(02)∶2-9.
[2]肖先勇,郑子萱.“双碳”目标下新能源为主体的新型电力系统:贡献、关键技术与挑战[J].工程科学与技术,2022,54(01)∶47-59.
[3]TAO R,LI YF,WANG Y.Short-Time Fractional Fourier Transform and Its Applications[J].IEEE Transactions on Signal Processing,2010,58(05):2568-2580.
[4]THIRUMALA K,UMARIKAR A C,JAIN T.Estimation of Single-Phase And Three-Phase Power-Quality Indices Using Empirical Wavelet Transform[J].IEEE Transactions on Power Delivery,2015,30(01):445-454.
[5]何智龙,苏娟,覃芳.S变换在电能质量扰动中的分析[J].电测与仪表,2015,52(22):25-30.
[6]王炳昱,熊炜,刘冬梅.基于dq变换的电压暂降检测方法对比分析[J].电气技术,2015,(07):53-57.
[7]伍红文,郭敏,邹建明,等.电压暂降在时域和变换域中的检测算法综述[J].电测与仪表,2021,58(08):1-10.
[8]LU C N,SHEN C C.Voltage Sag Immunity Factor Considering Severity And Duration[C]//IEEE Power Engineering Society General Meeting.Denver,Co,United States,2004.
[9]YAN X W,VENKATARAMANAN G,FLANNERY P S,et al.Evaluation of the Effect of Voltage Sags Due to Grid Balanced and Unbalanced Faults on DFIG Wind Turbines[J].Epe Journal,2010,20(04):51-61.
[10]MENDES V F,DE SOUSA C V,SILVA S R,et al.Modeling and Ride-Through Control of Doubly Fed Induction Generators During Symmetrical Voltage Sags[J].IEEE Transactions on Energy Conversion,2011,26(04):1161-1171.
[11]BISWAS S,GOSWAMI S K,CHATTERJEE A,et al.Optimum Distributed Generation Placement with Voltage Sag Effect Minimization[J].Energy Conversion and Management,2012,53(01):163-174.
[12]MELHORN C J,DAVIS T D,BEAM G E.Voltage Sags:Their Impact on the Utility and Industrial Customers[J].IEEE Transactions on Industry Application,1998,34(03):549-558.
[13]QADER M R,BOLLEN M H,ALLAN R.Stochastic Prediction of Voltage Sags in A Large Transmission System[J].IEEE Transactions on Industry Application,1999,35(01):152-162.
[14]VEGUNTA S C,MILANOVIC J V.Estimation of Cost of Downtime of Industrial Process Due to Voltage Sags[C]//20th International Conference and Exhibition on Electricity Distribution(Cired 2009).Prague,Czech Republic,2009.
[15]张逸,吴逸帆,陈晶腾.新型电力系统背景下电压暂降风险评估技术挑战与展望[J].电力建设,2023,44(02)∶15-24.
[16]徐培栋,肖先勇,汪颖.考虑母线电压时变区间特性的电压暂降频次评估[J].中国电机工程学报,2011,31(10):66-72.
[17]叶曦,刘开培,李志伟.不确定条件下计及线路保护动作特性的电压暂降频次评估[J].电力自动化设备,2018,38(03):169-176.
[18]曾江,蔡东阳.基于组合权重的蒙特卡洛电压暂降评估方法[J].电网技术,2016,40(05):1469-1475.
[19]WANG B,XU W,PAN Z C.Voltage Sag State Estimation for Power Distribution Systems[J].IEEE Transactions on Power Systems,2005,20(02):806-812.
[20]ZAMBRANO X,HERNáNDEZ A,IZZEDDINE M,et al.Estimation of Voltage Sags from A Limited Set of Monitors in Power Systems[J].IEEE Transactions on Power Delivery,2017,32(02):656-665.
[21]王宾,潘贞存,董新洲.基于电压跌落状态估计的复杂配电网络故障路径搜索算法[J].电网技术,2007,31(10):55-60.
[22]唐琳,肖先勇,张逸,等.电压暂降状态和水平评估模式匹配法与监测装置多目标优化配置[J].中国电机工程学报,2015,35(13):3264-3271.
[23]司学振,李琼林,杨家莉,等.基于实测数据的电压暂降特性分析[J].电力自动化设备,2017,37(12):144-149.
[24]浦雨婷,杨洪耕,马晓阳.基于数据挖掘与改进灰靶的电压暂降严重度分析与评估[J].电力系统自动化,2020,44(02):198-206.
[25]XIAO F,AI Q.Data-Driven Multi-Hidden Markov Model-Based Power Quality Disturbance Prediction that Incorporates Weather Conditions[J].IEEE Transactions on Power Systems,2019,34(01):402-412.
[26]刘旭娜,肖先勇,刘阳,等.工业过程电压暂降风险等级层次化多级模糊综合评估[J].电网技术,2014,38(07):1984-1988.
[27]唐琳,肖先勇,张逸,等.电压暂降状态和水平评估模式匹配法与监测装置多目标优化配置[J].中国电机工程学报,2015,35(13):3264-3271.
[28]王泽,张凯,陈济民,等.应用于模块化多电平变频器的电容电压脉动抑制技术综述[J].电工技术学报,2018,33(16):3756-3771.
[29]杨晓峰,郑琼林,薛尧,等.模块化多电平换流器的拓扑和工业应用综述[J].电网技术,2016,40(01)∶1-10.
[30]刘波峰,贺锐智,黄守道.低频工况下MMC电容电压波动抑制研究[J].控制工程,2017,24(08):1553-1558.