电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2013年
7期
103-108
,共6页
温柏坚%袁康龙%林舜江%刘明波%杨银国%辛拓
溫柏堅%袁康龍%林舜江%劉明波%楊銀國%辛拓
온백견%원강룡%림순강%류명파%양은국%신탁
变电站无功电压控制%静态电压稳定%连续潮流%OLTC%调节诱导分岔
變電站無功電壓控製%靜態電壓穩定%連續潮流%OLTC%調節誘導分岔
변전참무공전압공제%정태전압은정%련속조류%OLTC%조절유도분차
voltage and reactive power control of substations%steady state voltage stability%continuation power flow%on-load tap changer%regulation induced bifurcation
变电站电压无功控制(VQC)通过在线监视负荷侧电压和高压侧注入无功来决定站内电容器电抗器的投切和主变抽头的调整,它是一种提高电压质量的重要手段.根据变电站 VQC 模块的九区控制图规则,建立考虑 VQC 动作的连续潮流计算模型,分析其对广东电网静态电压稳定性的影响,并观察到一种由 VQC 策略中 OLTC 动作引起的电压失稳分岔情况,称为 OLTC调节诱导分岔.通过对广东电网的仿真分析表明,VQC 调控能够维持变电站电压质量,提高静态电压稳定负荷裕度,但在重负荷条件下可能发生由于 VQC 的动作而引起的系统分岔,从而导致电压失稳.
變電站電壓無功控製(VQC)通過在線鑑視負荷側電壓和高壓側註入無功來決定站內電容器電抗器的投切和主變抽頭的調整,它是一種提高電壓質量的重要手段.根據變電站 VQC 模塊的九區控製圖規則,建立攷慮 VQC 動作的連續潮流計算模型,分析其對廣東電網靜態電壓穩定性的影響,併觀察到一種由 VQC 策略中 OLTC 動作引起的電壓失穩分岔情況,稱為 OLTC調節誘導分岔.通過對廣東電網的倣真分析錶明,VQC 調控能夠維持變電站電壓質量,提高靜態電壓穩定負荷裕度,但在重負荷條件下可能髮生由于 VQC 的動作而引起的繫統分岔,從而導緻電壓失穩.
변전참전압무공공제(VQC)통과재선감시부하측전압화고압측주입무공래결정참내전용기전항기적투절화주변추두적조정,타시일충제고전압질량적중요수단.근거변전참 VQC 모괴적구구공제도규칙,건립고필 VQC 동작적련속조류계산모형,분석기대엄동전망정태전압은정성적영향,병관찰도일충유 VQC 책략중 OLTC 동작인기적전압실은분차정황,칭위 OLTC조절유도분차.통과대엄동전망적방진분석표명,VQC 조공능구유지변전참전압질량,제고정태전압은정부하유도,단재중부하조건하가능발생유우 VQC 적동작이인기적계통분차,종이도치전압실은.
@@@@Voltage and reactive power control (VQC) of substation determines capacitors or reactors switching and on-load tap changers (OLTC) automatically by on-line monitoring the load side bus voltage and high-voltage side reactive power injection. It is an important measure of maintaining voltage quality of power grid. According to nine-areas control diagram rule of substation VQC, this paper establishes a continuation power flow model including actions of VQC, and analyzes the impact of substation VQC on steady state voltage stability of Guangdong Power Grid. And a new type of bifurcation induced by OLTC regulation is founded, and it is called OLTC regulation induced bifurcation. A test on Guangdong Power Grid illustrates that VQC action can maintain voltage quality of substations and enhance steady state voltage stability margin, but may induce system bifurcation under heavy loading conditions, and lead to voltage collapse.