VFT PHASE VOLTAGE MEASUREMENT IN THREE-PHASE ENCLOSED GIS 被引量：1

VFT PHASE VOLTAGE MEASUREMENT IN THREE-PHASE ENCLOSED GIS

在线阅读下载PDF

导出

摘要 The measuring of VFT phase voltage in three-phase enclosed GIS is more complex and difficult than in single-phase ones. There are 3 capacitive sensors in the measuring system, the outputs of which are with a linear relation to the three phase voltages. This linear relation is presented with a factorial matrix. Because each capacitive sensor is coupled with the electric field of three phases (A, B, and C), the electric coupling coefficients are introduced. In order to determine the matrix of electric coupling coefficients, the numerical calculation method can be used. From the discussion on two types of three-phase enclosed GIS bus, i.e. standard arrangement and biased arrangement, the dominant electric coupling coefficients are named, which can be simply and approximately calculated by an analytic expression. Finally, as an example, the waveforms of VFT phase voltage generated on a three-phase enclosed GIS bus model are displayed. When a capacitive sensor is located at the ’shortest point’ of phase A (or B, or C), the VFT phase voltage V A (or V B, or V C) can almost be measured by that capacitive sensor alone. The measuring of VFT phase voltage in three-phase enclosed GIS is more complex and difficult than in single-phase ones. There are 3 capacitive sensors in the measuring system, the outputs of which are with a linear relation to the three phase voltages. This linear relation is presented with a factorial matrix. Because each capacitive sensor is coupled with the electric field of three phases (A, B, and C), the electric coupling coefficients are introduced. In order to determine the matrix of electric coupling coefficients, the numerical calculation method can be used. From the discussion on two types of three-phase enclosed GIS bus, i.e. standard arrangement and biased arrangement, the dominant electric coupling coefficients are named, which can be simply and approximately calculated by an analytic expression. Finally, as an example, the waveforms of VFT phase voltage generated on a three-phase enclosed GIS bus model are displayed. When a capacitive sensor is located at the 'shortest point' of phase A (or B, or C), the VFT phase voltage V A (or V B, or V C) can almost be measured by that capacitive sensor alone.

作者 Zou Jianhua(邹建华) Yue Ziding(岳子丁) Li Yang(李洋)

机构地区 Systems Engineering Institute

出处《Academic Journal of Xi'an Jiaotong University》 2002年第2期101-108,共8页 西安交通大学学报（英文版）

关键词 gas insulated substation(GIS) very fast transients(VFT) VOLTAGE MEASUREMENT electric field ANALYTIC expression MEASUREMENT apparatus VFT phase VOLTAGE wave gas insulated substation(GIS) very fast transients(VFT) voltage measurement electric field analytic expression measurement apparatus VFT phase voltage wave

分类号 TN933 [电子电信—信号与信息处理]

作者简介 Zou Jianhua, male, born in 1964, Professor, major in the research of high voltage engineering, measurement and control of electrical apparatus in particular.

引文网络
相关文献

参考文献18

1[1]Working Group 33/13-09. Very fast transient phenomena associated with gas insulated substation[R]. CIGRE Report 33-13,1988.
2[2]Povh D, Schmitt H, Volcker O, et al. Modeling and analysis guidelines for very fast transients[J]. IEEE Transactions on Power Delivery, 1996, 11(4): 2028-2035.
3[3]Vinod Kumar V, Thomas Joy M, Naidu MS. VFTO Computation in a 420kV GIS[J]. IEE Conference Publication, 1999, 1(467): 319-322.
4[4]Rao M Mohan, Jain HS, Rengarajan S, et al. Measurement of very fast transient overvoltages (VFTO) in a GIS module[J]. IEE Conference Publication, 1999, 1(467): 144.P4-147.P4.
5[5]K Nojima. Very fast transient overvoltages in gas insulated substation-modeling of three phase encapsulated bus[Z]. 8th Symp on High Voltage Eng, 1993.323.
6[6]Zou JH, Yao ZG. Phase voltage measurement in three-phase enclosed GIS on very fast transients[M]. 8th Symp on High Voltage Eng, 1993. 275-279.
7邹建华,欧阳兴无,李成.三相VFT电压测量中电场耦合系数矩阵的确定[J].中国电机工程学报,2000,20(10):5-9. 被引量：4
8[8]Smeets RPP, van der Linden WA, Achterkamp M, et al. Disconnector switching in GIS: three-phase testing and phenomena[J]. IEEE Transactions on Power Delivery, 2000, 15(1): 122-127.
9[9]Knapp M, Feger R, Feser K. Application of the CIGRE-sensitivity verification for UHF PD detection in three-phase GIS[J]. IEE Conference Publication, 1999, 5(467): 82.S12-85.S12.
10[10]Knapp M, Feser K, Rees V. Free moving particles in three-phase metal enclosed GIS[J]. Annual Report, Conference on Electrical Insulation and Dielectric Phenomena, 1998, 2: 497-500.

二级参考文献7

1邹建华,姚宗干,卢进军.GIS三相同壳母线VFT相电压测量原理分析[J].高电压技术,1993,19(4):10-14. 被引量：2
2团体著者，1988年
3袁梅珍，高压电器，1985年，4期
4王中方，高电压技术，1999年，25卷，1期，16页
5Zou Jianhua，8th Symp High Voltage Eng，1993年，275页
6史保壮,张文元,邱毓昌,王韵,戴佑复.GIS 中快速暂态过电压的测量[J].高电压技术,1998,24(1):17-18. 被引量：13
7王中方,张乔根,邱毓昌.快速暂态过电压的模拟及测量[J].高压电器,1999,35(1):16-19. 被引量：9

共引文献16

1刘卫东,汪林森,陈维江,戴敏,李志兵,岳功昌.特高压GIS特快速暂态过电压试验重复击穿过程研究[J].高电压技术,2011,37(3):644-650. 被引量：59
2岳功昌,刘卫东,陈维江,关永刚,李志兵,王浩.气体绝缘开关设备中特快速瞬态过电压的全过程测量方法[J].中国电机工程学报,2011,31(31):18-27. 被引量：62
3詹花茂,赵承楠,段韶峰,李成榕,李志兵,欧阳卓.气体绝缘开关设备的隔离开关分合空载短母线时特快速暂态过电压及特快速暂态电流测量[J].高电压技术,2013,39(6):1317-1323. 被引量：29
4孙泽来,马国明,郭攀辉,陈珉,李成榕,陈维江,丁卫东,戴敏,王磊.采用内置探头结构的1000kV特快速暂态过电压测量用窗口式传感器设计[J].高电压技术,2013,39(6):1426-1433. 被引量：12
5邹建华,李成,尹小根,卢进军.GIS三相同壳母线VFT相电压测量系统[J].中国电机工程学报,2001,21(4):11-14. 被引量：3
6陆建挺,富昱龙,申萌,钟磊,张小勇.智能GIS隔离开关开合母线充电电流试验方法探讨[J].高压电器,2014,50(8):42-46. 被引量：2
7陈洁,郭洁,邱爱慈,张桂红.特快波前下金属氧化物电阻片伏安特性试验研究[J].西安交通大学学报,2014,48(10):54-59. 被引量：3
8段韶峰,李志兵,詹花茂,王浩,李成榕,刘北阳,姚林志,赵琳.252kV GIS特快速瞬态试验回路研究[J].高压电器,2016,52(2):28-34. 被引量：7
9张璐,齐卫东,黄国强,张乔根,孙蕾,赵亚林.标称3MV快速暂态过电压测量用传感器研制[J].高电压技术,2016,42(6):1811-1818. 被引量：7
10倪鹤立,王同磊,袁炜雄,胥建文,臧英,杜建平,张乔根.应用耦合电容传感器的变压器类绕组暂态电压非接触式测量方法[J].电网技术,2016,40(12):3930-3937. 被引量：9

同被引文献21

1康宁,李永林,杨兰均,张乔根,王宏,邹建华.GIS中VFT过电压数值分析简化模型的构建方法[J].高电压技术,2004,30(10):1-3. 被引量：8
2孙伟,王韵,武增尧,史保壮,张文元.500kV GIS中快速暂态过电压的测量[J].高压电器,1998,34(4):11-14. 被引量：8
3陈维江,颜湘莲,王绍武,王承玉,李志兵,戴敏,李成榕,刘卫东,陈海波,张乔根,魏光林,张猛.气体绝缘开关设备中特快速瞬态过电压研究的新进展[J].中国电机工程学报,2011,31(31):1-11. 被引量：145
4杜林,杨勇,常阿飞,李立浧.输电线路过电压传感器波形解耦及影响其测量精度的相关因素[J].高电压技术,2012,38(1):52-58. 被引量：6
5邹建华,欧阳兴无,林富昌,卢进军.三相共箱GIS母线与传感器耦合系数实测[J].高电压技术,2000,26(2):1-2. 被引量：1
6张卫东,陈沛龙,陈维江,崔翔,王磊,黄辉敏,胡榕,武超飞.特高压GIS变电站VFTO对二次电缆骚扰电压的实测与仿真[J].中国电机工程学报,2013,33(16):187-196. 被引量：63
7詹花茂,赵承楠,段韶峰,李成榕,李志兵,欧阳卓.气体绝缘开关设备的隔离开关分合空载短母线时特快速暂态过电压及特快速暂态电流测量[J].高电压技术,2013,39(6):1317-1323. 被引量：29
8孙泽来,马国明,郭攀辉,陈珉,李成榕,陈维江,丁卫东,戴敏,王磊.采用内置探头结构的1000kV特快速暂态过电压测量用窗口式传感器设计[J].高电压技术,2013,39(6):1426-1433. 被引量：12
9邹建华,欧阳兴无,李成.三相VFT电压测量中电场耦合系数矩阵的确定[J].中国电机工程学报,2000,20(10):5-9. 被引量：4
10陈珉,马国明,李成榕,孙泽来,陈维江,丁卫东.气体绝缘开关设备介质窗口式特快速暂态过电压测量用传感器研制[J].高电压技术,2014,40(3):897-903. 被引量：26

引证文献1

1谭向宇,赵现平,王科,聂永杰,彭晶.三相同壳GIS母线相电压测量解耦方法研究[J].高压电器,2021,57(11):51-59. 被引量：5

二级引证文献5

1余紫薇,范越,赵建勇,年珩,马丽山,杨森林,于涛.考虑供电半径延长的配电网用电力电子调压器控制策略[J].电力科学与技术学报,2022,37(3):61-69. 被引量：3
2王益民.某126 kV GIS运行中产生振动异响的分析和解决方案[J].高压电器,2023,59(7):200-206. 被引量：3
3张榆,谢施君,丁卫东,闫佳胤,王涵宇,张晨萌.VFTO传感器标定用同轴传输腔体结构设计[J].电测与仪表,2023,60(7):183-192.
4李远,李孟阳,杨家全,梁俊宇,袁兴宇,汪金刚.圆盘形结构的非接触式电压传感器设计与实验[J].电测与仪表,2023,60(12):96-103. 被引量：3
5付威,蒋晓东,彭澎,王闯.GIS扩建过程中连接母线的应力强度仿真分析[J].高压电器,2025,61(1):12-18.

1S.E.Cho,S.J.Park.A Study of Power Loss for 3 Phase Voltage Source Converter of Elevator[J].科技信息,2013(3):255-257.
2胡志坤,陈志文,华长春,王会海,丁家峰.A novel digital control strategy of three-phase shunt active power filter under non-ideal mains voltages[J].Journal of Central South University,2011,18(6):2021-2030. 被引量：1
3张勇,段采宇,余滨,武小悦.基于价值的武器装备需求分析方法[J].火力与指挥控制,2008,33(8):37-40. 被引量：3
4Maglco推出V3高级音箱[J].高保真音响,2007(9):8-8.
5印制电路与集成电路[J].电子科技文摘,2003,0(10):23-23.
6王青,陈宁,孙伟锋,陆生礼,时龙兴.A digital prediction algorithm for a single-phase boost PFC[J].Journal of Semiconductors,2012,33(12):86-92. 被引量：2
7李杰,马祎炜,陈国呈,王得利,俞俊杰.The improved PAC method for a three-phase PWM grid-connected inverter[J].Journal of Shanghai University(English Edition),2008,12(6):560-564.
8遥歌.WCDMA手机市场增势喜人[J].北京电子,2005(11):21-21.
9曹一江,于翔,王磊.Study of CMOS integrated signal processing circuit in capacitive sensors[J].Journal of Harbin Institute of Technology(New Series),2007,14(2):224-228. 被引量：1
10Mihail Digalovski Krste Najdenkoski Goran Rafajlovski.Prediction of Core Losses of Three-Phase Distribution Transformer[J].Journal of Energy and Power Engineering,2013,7(12):2347-2353.

Academic Journal of Xi'an Jiaotong University

2002年第2期

浏览历史

内容加载中请稍等...