电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2014年
14期
30-35
,共6页
马宏忠%张正东%时维俊%陈继宁%陈涛涛
馬宏忠%張正東%時維俊%陳繼寧%陳濤濤
마굉충%장정동%시유준%진계저%진도도
双馈风力发电机%定子绕组%故障检测%PSCAD 仿真%实验平台
雙饋風力髮電機%定子繞組%故障檢測%PSCAD 倣真%實驗平檯
쌍궤풍력발전궤%정자요조%고장검측%PSCAD 방진%실험평태
doubly-fed induction generator%stator windings%fault diagnosis%PSCAD simulation%experimental platform
提出一种基于转子瞬时功率谱分析的双馈风力发电机定子绕组故障的在线监测与诊断新方法。理论分析表明,与常见的电流或电压谱诊断方法相比,转子瞬时功率谱法既具有无需外加传感器与硬件设备的优点,又由于其特征频率不受转差的影响,当转差存在一定的跟踪或计算误差时,特征频率不会改变,具有很强的抗干扰能力。在 PSCAD 软件中建立了双馈风力发电机并网模型,对正常及故障状态进行仿真分析,得出转子瞬时功率谱法在双馈风力发电机定子绕组故障诊断中更具敏感性的结论。在动模实验室建立了定子绕组故障诊断的实验平台,进一步证明了转子瞬时功率谱法在双馈风力发电机定子绕组故障诊断中的可行性。
提齣一種基于轉子瞬時功率譜分析的雙饋風力髮電機定子繞組故障的在線鑑測與診斷新方法。理論分析錶明,與常見的電流或電壓譜診斷方法相比,轉子瞬時功率譜法既具有無需外加傳感器與硬件設備的優點,又由于其特徵頻率不受轉差的影響,噹轉差存在一定的跟蹤或計算誤差時,特徵頻率不會改變,具有很彊的抗榦擾能力。在 PSCAD 軟件中建立瞭雙饋風力髮電機併網模型,對正常及故障狀態進行倣真分析,得齣轉子瞬時功率譜法在雙饋風力髮電機定子繞組故障診斷中更具敏感性的結論。在動模實驗室建立瞭定子繞組故障診斷的實驗平檯,進一步證明瞭轉子瞬時功率譜法在雙饋風力髮電機定子繞組故障診斷中的可行性。
제출일충기우전자순시공솔보분석적쌍궤풍력발전궤정자요조고장적재선감측여진단신방법。이론분석표명,여상견적전류혹전압보진단방법상비,전자순시공솔보법기구유무수외가전감기여경건설비적우점,우유우기특정빈솔불수전차적영향,당전차존재일정적근종혹계산오차시,특정빈솔불회개변,구유흔강적항간우능력。재 PSCAD 연건중건립료쌍궤풍력발전궤병망모형,대정상급고장상태진행방진분석,득출전자순시공솔보법재쌍궤풍력발전궤정자요조고장진단중경구민감성적결론。재동모실험실건립료정자요조고장진단적실험평태,진일보증명료전자순시공솔보법재쌍궤풍력발전궤정자요조고장진단중적가행성。
A new on-line approach based on rotor instantaneous power spectrum is proposed to detect doubly-fed induction generator stator winding fault.Theoretical analysis shows that,compared with the common current or voltage spectrum analysis methods,the instantaneous power spectrum has the advantage that external sensors and hardware devices are not needed.Moreover,the spectrum has good interference immunity.Once some slip tracking or calculation errors occur,the characteristic frequency will not change because the characteristic frequency is not affected by slip.A doubly-fed induction generator model is established using PSCAD software.Through normal and stator faults conditions simulations and analysis,it is concluded that the rotor instantaneous power spectrum is more sensitive than the current or voltage spectrum on dealing with the stator winding faults conditions.Finally,the experimental platform of stator faults diagnosis is built in laboratory which further proves that it is feasible to use the rotor instantaneous power spectrum to diagnose the stator winding faults. This work is supported by National Natural Science Foundation of China (No. 5 1 1 77039) and Ph.D. Programs Foundation of Ministry of Education of China(No.200909441 1001 1).