电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2014年
6期
20-25
,共6页
柏丹丹%和敬涵%王小君%叶豪东
柏丹丹%和敬涵%王小君%葉豪東
백단단%화경함%왕소군%협호동
低频减载%灰色关联分析%减载排序%WAMS%初始频率变化率
低頻減載%灰色關聯分析%減載排序%WAMS%初始頻率變化率
저빈감재%회색관련분석%감재배서%WAMS%초시빈솔변화솔
UFLS%grey correlation analysis%shedding order%WAMS%initial frequency change rate
针对当前低频减载方案常按频率跌落延时切除离线整定的负荷量、缺少对负荷特性的综合考虑而引起的欠切、过切等问题,提出以负荷频率效应系数、单位电能损失和负载率为决策指标对不同重要性级别下的负荷节点进行灰色关联分析排序,按关联度由大到小确定切负荷顺序。基于广域测量的系统初始频率变化率自适应估计系统功率缺额,在计及发电机和负荷的调节作用的同时计算切负荷总量,并按减载顺序主动分配。四种典型故障场景下的仿真结果表明所提方案能有效决策减载策略,以最小的减载量和减载代价获得了最优的频率动态恢复曲线,验证了可行性。
針對噹前低頻減載方案常按頻率跌落延時切除離線整定的負荷量、缺少對負荷特性的綜閤攷慮而引起的欠切、過切等問題,提齣以負荷頻率效應繫數、單位電能損失和負載率為決策指標對不同重要性級彆下的負荷節點進行灰色關聯分析排序,按關聯度由大到小確定切負荷順序。基于廣域測量的繫統初始頻率變化率自適應估計繫統功率缺額,在計及髮電機和負荷的調節作用的同時計算切負荷總量,併按減載順序主動分配。四種典型故障場景下的倣真結果錶明所提方案能有效決策減載策略,以最小的減載量和減載代價穫得瞭最優的頻率動態恢複麯線,驗證瞭可行性。
침대당전저빈감재방안상안빈솔질락연시절제리선정정적부하량、결소대부하특성적종합고필이인기적흠절、과절등문제,제출이부하빈솔효응계수、단위전능손실화부재솔위결책지표대불동중요성급별하적부하절점진행회색관련분석배서,안관련도유대도소학정절부하순서。기우엄역측량적계통초시빈솔변화솔자괄응고계계통공솔결액,재계급발전궤화부하적조절작용적동시계산절부하총량,병안감재순서주동분배。사충전형고장장경하적방진결과표명소제방안능유효결책감재책략,이최소적감재량화감재대개획득료최우적빈솔동태회복곡선,험증료가행성。
The current under frequency load shedding (UFLS) scheme usually cuts the load of offline setting according to the frequency drop delay, and it ignores the load characteristics, which leads to the overcut and undercut problems. Grey correlation analysis is proposed to calculate correlation degree of shedding load with different importance level based on the indexes of load frequency regulation factor, unit power outage loss, and load rate. The load shedding order depends on the correlation degree. Considering system spinning reserve capacity and load regulation characteristics, the total shedding capacity is decided after using initial frequency change rate measured by WAMS technology to adaptively evaluate the system power gap. The total shedding capacity is assigned to corresponding load automatically in the order of load shedding. Four typical fault scenarios validate that the proposed scheme can decide the intelligent UFLS adaptively and obtain the optimum system dynamic frequency recovery characteristic curve with the minimum load shedding.
