Combination of Reactive Current Droop Compensation and Line Drop Compensation for Improving Voltage Stability 被引量：7

Combination of Reactive Current Droop Compensation and Line Drop Compensation for Improving Voltage Stability

下载PDF

导出

摘要 Recent events related to power system failure have shown that voltage collapse can be a cause of widespread outages.The thrust of this paper is to discuss and establish means of mitigating system voltage instability by using a combination of both reactive current droop compensation and line drop compensation.It is shown that the point that the voltage regulator controls can be defined by a new method which is based on a widely accepted voltage stability analysis tool.This tool can be used to determine which generators will have an impact on the maximum permissible loading of a bus.Dynamic analysis was carried out on the CIGRE Nordic test system to study the impact of control point location on time to collapse and it is shown that the new scheme can improve the voltage stability. Recent events related to power system failure have shown that voltage collapse can be a cause of widespread outages. The thrust of this paper is to discuss and establish means of mitigating system voltage instability by using a combination of both reactive current droop compensation and line drop compensation. It is shown that the point that the voltage regulator controls can be defined by a new method which is based on a widely accepted voltage stability analysis tool. This tool can be used to determine which generators will have an impact on the maximum permissible loading of a bus. Dynamic analysis was carried out on the CIGRE Nordic test system to study the impact of control point location on time to collapse and it is shown that the new scheme can improve the voltage stability.

作者 TIAN Qing LIN Xiang-ning

机构地区 Southeast Shanxi Ultra High Voltage Administrative Bureau Department of Electrical Engineering

出处《高压电器》 CAS CSCD 北大核心 2009年第4期5-11,共7页 High Voltage Apparatus

基金 Project Supported by National Natural Science Foundation of China(50407010)

关键词电力系统电压电流稳定性 power system stability voltage control regulator voltage stability

分类号 TM712 [电气工程—电力系统及自动化] TM63 [电气工程—电力系统及自动化]

引文网络
相关文献

参考文献19

1KUNDUR P.Power Sy stem Stabilityand Control[M].McGraw-Hill.Inc.,1994.
2TAYLOR C.Power System Voltage Stability[M].McGraw-Hill,Inc.,1994.
3KITAMURA H,SHIMOMURA M,PASERBA J.Improvement of Voltage Stability by the Advanced HiSh Voltage Control Regulator[C]//2000 IEEE Power Engineering Society Summer Meeting,USA,2000:278-284.
4MICHIGAMI T,ONIZUKA N,KITAMURA S.Development of Advanced Generator Excitation Control Regulator(PSVR)for Impmving Voltage Stability of Abulk Power Transmission System[J].The Institute of Electrical Engineers of Japan,1990,11(110-B):887-894.
5DAVIES J B,MIDFORD L E.High Side Voltage Control at Manitoba Hydro[C]//2000 IEEE Power Engineering Society Summer Meeting,USA,2000:271-277.
6BRANDT D,WACHAL R,VALIQUETTE R,et al.Closed Loop Testing of a Joint VAR Controller Using a Real Time Simulator[J].IEEE Transactions on Power Systems,1991,6(3):1140-1146.
7MURDOCH A,SANCHEZ-GASCA J J,DANTONIO M J.Excitation Control for High Side Voltage Regulation[C]//2000 IEEE Power Engineering Society Summer Meeting,USA,2000:285-289.
8KOSTEREV D.Installation and Initial Operating Experience with Line Drop Compensation at John Day Powerhouse[J].IEEE Transactions on Power Systems,2001,16(2):261-265.
9KUNDUR P,PASERBA J,AJJARAPU V,et al.Definition and Classification of Power System Stability[J].IEEE Transactions On Power Systems,2004,19(2):1387-1401.
10PAUL J P,CORROYER C,JEANNEL P,et al.Torra-Improvements in the Organisation of Secondary Voltage Control in France[R].Paris:CIGRE Session,1990.

同被引文献61

1文继锋,陈松林,李海英,郑玉平,沈国荣,李静.超高压直流系统中的直流滤波器保护[J].电力系统自动化,2004,28(21):69-72. 被引量：34
2张雪松,何奔腾.基于误差估计的变压器励磁涌流识别原理[J].中国电机工程学报,2005,25(3):94-99. 被引量：34
3文继锋,陈松林,李海英,张宏波,刘伟.交流滤波器保护配置和实现[J].电力系统自动化,2006,30(2):109-112. 被引量：40
4文明浩,陈德树.一种特高压3/2接线纵差保护抗电流互感器饱和措施[J].电力系统自动化,2006,30(10):61-63. 被引量：9
5余江,周红阳,赵曼勇.高压电容器不平衡保护的相关问题[J].电力系统自动化,2006,30(13):85-89. 被引量：44
6任达勇.天广直流工程历年双极闭锁事故分析[J].高电压技术,2006,32(9):173-175. 被引量：37
7林湘宁,曾湘,翁汉琍.一种快速识别故障发展的变压器差动保护解除闭锁新方法[J].中国电机工程学报,2006,26(19):29-35. 被引量：12
8王俊生,沈国民,李海英,曹冬明.±800 kV特高压直流输电双极区保护的若干问题探讨[J].电力系统自动化,2006,30(23):85-88. 被引量：22
9赵碗君.高压直流输电工程技术[M].北京:中国电力出版社,2004:218-219.
10TIAN Qing,LIN Xiang-ning,LIU Pei.A novel self-adaptive compensated differential protection design suitable for the generator with considerable winding distributed capacitance[J]. IEEE Trans.On Power Delivery,2007,22 (2): 836-842.

引证文献7

1田庆.特高压交流试验示范工程主变保护误动作分析[J].高压电器,2011,47(2):7-11. 被引量：8
2田庆,时伟光.云广特高压直流工程系统调试无通讯运行问题分析及策略[J].高压电器,2011,47(5):16-21. 被引量：5
3田庆.天广直流输电工程控制保护功能的完善[J].高压电器,2011,47(11):66-71. 被引量：3
4田庆.云广特高压直流输电工程穗东站交流滤波器电阻基波过流保护误动作分析[J].高压电器,2012,48(2):7-11. 被引量：5
5田庆.天广工程直流线路突变量保护误动作分析[J].高压电器,2012,48(4):33-38. 被引量：7
6田庆.直流输电工程阀水冷系统缺陷分析[J].高压电器,2012,48(8):80-85. 被引量：5
7田庆.直流滤波器差动保护误动作分析[J].高压电器,2012,48(9):22-26. 被引量：7

二级引证文献34

1范彩云,张志刚,刘堃,任静,何青连,李生林,黄永瑞,李旭升.HVDC逆变侧典型故障暂态响应分析[J].电网与清洁能源,2015,31(6):39-43. 被引量：6
2史泽兵,郝后堂,江卫良.一种新型的励磁涌流制动方案[J].电力系统保护与控制,2012,40(8):147-150. 被引量：10
3田庆.天广工程直流线路突变量保护误动作分析[J].高压电器,2012,48(4):33-38. 被引量：7
4洪妙,刘栋,骆林峰.换流站交流滤波器的配置与控制功能优化[J].电力电容器与无功补偿,2012,33(3):6-9. 被引量：13
5田庆.直流输电工程阀水冷系统缺陷分析[J].高压电器,2012,48(8):80-85. 被引量：5
6田庆.直流滤波器差动保护误动作分析[J].高压电器,2012,48(9):22-26. 被引量：7
7梅中原,史海洋,孙进科,王波,付大志.交流滤波电容器不平衡保护的原理和计算[J].电力电容器与无功补偿,2012,33(6):1-8. 被引量：7
8梁天明,李豹,张蔷,林展涛,岳昊.交流滤波器电容器运行情况分析及共性问题探讨[J].电力电容器与无功补偿,2012,33(6):77-82. 被引量：8
9吴贻志,曹小拐,毛海鹏,江一.直流输电系统停运极中性母线开关闭合对控制保护系统的影响分析[J].高压电器,2013,49(8):44-49. 被引量：2
10崔光照,董振廷.云南-广东±800kV直流系统无功控制策略研究[J].郑州轻工业学院学报（自然科学版）,2013,28(6):90-94. 被引量：2

1盖佳麒,赵龙安.微网运行控制策略的研究[J].陕西电力,2014,42(11):13-18. 被引量：4
2LI Hui,FU Bo,YANG Chao,ZHAO Bin,TANG Xianhu.Reactive Current Allocation and Control Strategies Improvement of Low Voltage Ride Though for Doubly Fed Induction Wind Turbine Generation System[J].中国电机工程学报,2012,32(22). 被引量：36
3瞿苏寒,马平,蔡兴国.Chaos quantum particle swarm optimization for reactive power optimization considering voltage stability[J].Journal of Harbin Institute of Technology(New Series),2010,17(3):351-356. 被引量：2
4刘刚,方文治.核电厂应急柴油发电机组并网功率输出问题研究[J].移动电源与车辆,2016,47(3):17-20. 被引量：2
5Benefits　of　Series　Compensation　in　Long　Transmission　System[J].Electricity,1998(1):43-47.
6张鸿,宁跃飞.基于ZigBee的微网控制策略研究与实现[J].电源技术,2016,40(3):725-726. 被引量：4
7汪小平,李阳.微电网运行控制与仿真[J].中国电力,2011,44(12):73-77. 被引量：17
8石挺,杨深,刘洋,陈育明,陈大华,任亚炎.纹波电流对LED光效的影响[J].照明工程学报,2013,24(3):64-68. 被引量：2
9陈奇方,朱小兰,张文青,舒海莲,甄少屿.基于Matlab/Simulink的分布式电源控制方法[J].电网与清洁能源,2015,31(4):36-41. 被引量：4
10张守刚.某电厂煤码头长距离、多驱动皮带机变频启动设计[J].工程建设与设计,2015(8):87-90.

高压电器

2009年第4期

浏览历史

内容加载中请稍等...

Combination of Reactive Current Droop Compensation and Line Drop Compensation for Improving Voltage Stability 被引量：7

参考文献19

同被引文献61

引证文献7

二级引证文献34

相关作者

相关机构

相关主题

浏览历史