四川电力技术
四川電力技術
사천전력기술
SICHUAN ELECTRIC POWER TECHNOLOGY
2013年
5期
41-44
,共4页
次同步谐振%可控串补%静止无功补偿器%测试信号法%经济性
次同步諧振%可控串補%靜止無功補償器%測試信號法%經濟性
차동보해진%가공천보%정지무공보상기%측시신호법%경제성
sub-synchronous resonance%thyristor controlled series capacitor%static var compensator%test signal method%e-conomy
针对电力系统远距离、大容量输电中的串联补偿技术容易引起系统次同步谐振( SSR)问题,基于IEEE次同步谐振第一标准测试系统,在PSCAD/EMTDC中搭建晶闸管控制串联电容器( TCSC)和静止无功补偿器( SVC)模型,利用测试信号法从电气阻尼和经济性两方面讨论TCSC与SVC抑制SSR效果。研究发现:在实测容量下,SVC较TCSC投资偏多,但在整个次频段内(尤其是在主导模式下) SVC提升电气阻尼较TCSC更多;时域仿真表明加入SVC较TC-SC而言,扭矩收敛速度更快,抑制效果更好。
針對電力繫統遠距離、大容量輸電中的串聯補償技術容易引起繫統次同步諧振( SSR)問題,基于IEEE次同步諧振第一標準測試繫統,在PSCAD/EMTDC中搭建晶閘管控製串聯電容器( TCSC)和靜止無功補償器( SVC)模型,利用測試信號法從電氣阻尼和經濟性兩方麵討論TCSC與SVC抑製SSR效果。研究髮現:在實測容量下,SVC較TCSC投資偏多,但在整箇次頻段內(尤其是在主導模式下) SVC提升電氣阻尼較TCSC更多;時域倣真錶明加入SVC較TC-SC而言,扭矩收斂速度更快,抑製效果更好。
침대전력계통원거리、대용량수전중적천련보상기술용역인기계통차동보해진( SSR)문제,기우IEEE차동보해진제일표준측시계통,재PSCAD/EMTDC중탑건정갑관공제천련전용기( TCSC)화정지무공보상기( SVC)모형,이용측시신호법종전기조니화경제성량방면토론TCSC여SVC억제SSR효과。연구발현:재실측용량하,SVC교TCSC투자편다,단재정개차빈단내(우기시재주도모식하) SVC제승전기조니교TCSC경다;시역방진표명가입SVC교TC-SC이언,뉴구수렴속도경쾌,억제효과경호。
Aiming at the problem of sub -synchronous resonance ( SSR) caused by the series compensation technology used in the long-distance and high-capacity transmission power system , the models of thyristor controlled series capacitor ( TCSC) and static var compensator ( SVC) are built in PSCAD/EMTDC based on the first standard IEEE sub -synchronous resonance test system.The suppression effect is discussed from the two aspects of electrical damping and economy with the test signal method.The study shows that the investment of SVC is much bigger than TCSC at the measured capacity , but the electrical damping enhanced by the SVC is more than TCSC in all sub -frequency .The time domain simulation shows that compared with TCSC, the convergence rate of torque is faster and the suppression effect is better when adding SVC .
