电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2013年
23期
8-14
,共7页
风电场%临界时滞%电力系统阻尼%附加有功控制%双馈感应发电机
風電場%臨界時滯%電力繫統阻尼%附加有功控製%雙饋感應髮電機
풍전장%림계시체%전력계통조니%부가유공공제%쌍궤감응발전궤
wind farm%critical time-delay%power system damping%additional active power control%doubly-fed induction generator (DFIG)
为改善风电场对电力系统的阻尼影响,提出了附加有功控制策略并分析了通信时滞对附加控制效果的影响。首先,分析了风电场阻尼电力系统的机理,推导了风电场提供正阻尼的解析条件。基于该条件,设计了附加有功控制策略,将风电场公共母线的频率增量作为附加控制器的输入,附加控制器的输出经通信网络作用于各风电机组,以改善风电场整体动态行为,达到对电力系统产生正阻尼的作用。然后,考虑了通信时滞对控制效果的影响,提出并证明了求解风电场提供零阻尼的临界时滞以及计算系统发生 Hopf分岔的临界时滞的2个命题,以作为附加有功控制的约束条件。最后,通过时域仿真表明,附加有功控制可显著增强电力系统阻尼;在引入时滞因素后发现,随着时滞的增大,系统阻尼相应变化。根轨迹分析与频率特性分析验证了风电场提供正阻尼条件及时滞影响相关命题的正确性。
為改善風電場對電力繫統的阻尼影響,提齣瞭附加有功控製策略併分析瞭通信時滯對附加控製效果的影響。首先,分析瞭風電場阻尼電力繫統的機理,推導瞭風電場提供正阻尼的解析條件。基于該條件,設計瞭附加有功控製策略,將風電場公共母線的頻率增量作為附加控製器的輸入,附加控製器的輸齣經通信網絡作用于各風電機組,以改善風電場整體動態行為,達到對電力繫統產生正阻尼的作用。然後,攷慮瞭通信時滯對控製效果的影響,提齣併證明瞭求解風電場提供零阻尼的臨界時滯以及計算繫統髮生 Hopf分岔的臨界時滯的2箇命題,以作為附加有功控製的約束條件。最後,通過時域倣真錶明,附加有功控製可顯著增彊電力繫統阻尼;在引入時滯因素後髮現,隨著時滯的增大,繫統阻尼相應變化。根軌跡分析與頻率特性分析驗證瞭風電場提供正阻尼條件及時滯影響相關命題的正確性。
위개선풍전장대전력계통적조니영향,제출료부가유공공제책략병분석료통신시체대부가공제효과적영향。수선,분석료풍전장조니전력계통적궤리,추도료풍전장제공정조니적해석조건。기우해조건,설계료부가유공공제책략,장풍전장공공모선적빈솔증량작위부가공제기적수입,부가공제기적수출경통신망락작용우각풍전궤조,이개선풍전장정체동태행위,체도대전력계통산생정조니적작용。연후,고필료통신시체대공제효과적영향,제출병증명료구해풍전장제공령조니적림계시체이급계산계통발생 Hopf분차적림계시체적2개명제,이작위부가유공공제적약속조건。최후,통과시역방진표명,부가유공공제가현저증강전력계통조니;재인입시체인소후발현,수착시체적증대,계통조니상응변화。근궤적분석여빈솔특성분석험증료풍전장제공정조니조건급시체영향상관명제적정학성。
In order to improve the damping effect of the wind farm on the power system,this paper proposes a novel active power control strategy and analyzes the impact of communication time-delay on the control strategy.Firstly,the mechanism of the wind farm restraining oscillation of the power system is studied and an analytical condition for enabling the dynamic behaviors of the wind farm to be improved is derived.According to the condition,the additional control strategy is designed for the purpose of producing positive damping to the power system.The frequency increment is collected from the common bus of the wind farm as the input signal of the controller.Meanwhile,the output signals from the controller are individually transmitted to the active control loops of each wind turbogenerator.Secondly,considering the impact of commutation time-delay on the system performance,two propositions,as the constraining conditions for the design of the active power controller, are presented and proved,the proposition of solving the critical time-delay of the wind farm in supplying zero-damping and the critical time-delay resulting in Hopf bifurcation with the calculating system due to the wind farm supply to the power system with negative damping.Finally,as shown by simulation results,the additional active power control can markedly enhance the damping of the power system.Furthermore,it is found after introducing the time-delay factor that,with the time-delay increase,system damping varies as a result.The correctness of the analytical condition and the two propositions are verified by the root locus analysis and frequency domain analysis.