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
9期
21-26
,共6页
高压直流%次同步振荡%可观测度%可控度%阻尼控制
高壓直流%次同步振盪%可觀測度%可控度%阻尼控製
고압직류%차동보진탕%가관측도%가공도%조니공제
high-voltage direct-current%subsynchronous oscillation%observability degree%controllability degree%damping control
汽轮发电机组轴系在次同步频率范围内往往存在多个扭振模态.目前对高压直流输电引起的多模态次同步振荡尚缺乏行之有效的抑制策略,系统中多次出现应用次同步振荡阻尼控制器后轴系依然存在明显振荡的现象.应用状态空间法对轴系机械系统进行分析,建立了次同步振荡模态的可观测度与可控度的概念.在设计次同步振荡阻尼控制器时,基于次同步振荡的可控与可观测度进行参数优化.PSCAD/EMTDC的时域仿真结果表明,传统的次同步振荡阻尼控制器对于可观测与可控度较低的振荡模态抑制效果较差,而所提出的基于可观测与可控度的次同步振荡阻尼控制器对于所有模式的次同步振荡均能有效抑制.研究成果对于抑制高压直流引起的多模态次同步振荡具有重要参考价值.
汽輪髮電機組軸繫在次同步頻率範圍內往往存在多箇扭振模態.目前對高壓直流輸電引起的多模態次同步振盪尚缺乏行之有效的抑製策略,繫統中多次齣現應用次同步振盪阻尼控製器後軸繫依然存在明顯振盪的現象.應用狀態空間法對軸繫機械繫統進行分析,建立瞭次同步振盪模態的可觀測度與可控度的概唸.在設計次同步振盪阻尼控製器時,基于次同步振盪的可控與可觀測度進行參數優化.PSCAD/EMTDC的時域倣真結果錶明,傳統的次同步振盪阻尼控製器對于可觀測與可控度較低的振盪模態抑製效果較差,而所提齣的基于可觀測與可控度的次同步振盪阻尼控製器對于所有模式的次同步振盪均能有效抑製.研究成果對于抑製高壓直流引起的多模態次同步振盪具有重要參攷價值.
기륜발전궤조축계재차동보빈솔범위내왕왕존재다개뉴진모태.목전대고압직류수전인기적다모태차동보진탕상결핍행지유효적억제책략,계통중다차출현응용차동보진탕조니공제기후축계의연존재명현진탕적현상.응용상태공간법대축계궤계계통진행분석,건립료차동보진탕모태적가관측도여가공도적개념.재설계차동보진탕조니공제기시,기우차동보진탕적가공여가관측도진행삼수우화.PSCAD/EMTDC적시역방진결과표명,전통적차동보진탕조니공제기대우가관측여가공도교저적진탕모태억제효과교차,이소제출적기우가관측여가공도적차동보진탕조니공제기대우소유모식적차동보진탕균능유효억제.연구성과대우억제고압직류인기적다모태차동보진탕구유중요삼고개치.
@@@@In subsynchronous frequency range, usually there are multiple modes of torsional vibration for turbine generator shaft. At present, the effective damping strategy is deficient for multi-mode subsynchronous oscillation induced by high voltage direct current. In power system, the phenomena have happened several times that obvious shaft oscillations still exist after subsynchronous damping controller has been applied. In this paper, state space method is used to analyze shaft mechanical system, and the concept of mode observability and controllability degree of subsynchronous oscillation is established. In the design of subsynchronous damping controller, the parameters are optimized based on observability and controllability degree of subsynchronous oscillation modes. Simulation results of PSCAD/EMTDC indicate that traditional subsynchronous damping controller is not very effective for the oscillation mode with relative low observability and controllability degree and the subsynchronous damping controller based on observability and controllability degree proposed is very effective for all subsynchronous oscillations in different modes. The product of this paper has important reference value for damping multi-modes subsynchronous oscillation induced by high voltage direct current.