电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2014年
18期
65-71
,共7页
周念成%谢光莉%王强钢%罗艾青%陈勇
週唸成%謝光莉%王彊鋼%囉艾青%陳勇
주념성%사광리%왕강강%라애청%진용
双馈感应发电机%静态等值电路%撬棒电阻%转速%短路电流峰值
雙饋感應髮電機%靜態等值電路%撬棒電阻%轉速%短路電流峰值
쌍궤감응발전궤%정태등치전로%효봉전조%전속%단로전류봉치
doubly-fed induction generator (DFIG)%static equivalent circuits%crowbar resistance%rotor speed%short-circuit peak current
短路电流计算是电网规划和保护的基础,文中将双馈感应发电机(DFIG)定子磁链强制分量归算至定子侧,将定子磁链直流分量归算至转子侧,形成静态等值电路,分析转子感应磁链随转速的变化规律,研究转子电阻对故障时定子磁链直流分量动态衰减及其与转子绕组感应过程的影响,推导电网三相短路时DFIG定子短路电流解析式。比较了近端和远端故障时不同撬棒电阻对应定子短路电流特性,提出了DFIG接入电网的三相短路电流峰值评估方法。该方法能有效计算DFIG机端、馈线上下游和其他馈线故障时的三相短路电流峰值序列,采用 MATLAB/Simulink 软件仿真验证了所提出方法的正确性。
短路電流計算是電網規劃和保護的基礎,文中將雙饋感應髮電機(DFIG)定子磁鏈彊製分量歸算至定子側,將定子磁鏈直流分量歸算至轉子側,形成靜態等值電路,分析轉子感應磁鏈隨轉速的變化規律,研究轉子電阻對故障時定子磁鏈直流分量動態衰減及其與轉子繞組感應過程的影響,推導電網三相短路時DFIG定子短路電流解析式。比較瞭近耑和遠耑故障時不同撬棒電阻對應定子短路電流特性,提齣瞭DFIG接入電網的三相短路電流峰值評估方法。該方法能有效計算DFIG機耑、饋線上下遊和其他饋線故障時的三相短路電流峰值序列,採用 MATLAB/Simulink 軟件倣真驗證瞭所提齣方法的正確性。
단로전류계산시전망규화화보호적기출,문중장쌍궤감응발전궤(DFIG)정자자련강제분량귀산지정자측,장정자자련직류분량귀산지전자측,형성정태등치전로,분석전자감응자련수전속적변화규률,연구전자전조대고장시정자자련직류분량동태쇠감급기여전자요조감응과정적영향,추도전망삼상단로시DFIG정자단로전류해석식。비교료근단화원단고장시불동효봉전조대응정자단로전류특성,제출료DFIG접입전망적삼상단로전류봉치평고방법。해방법능유효계산DFIG궤단、궤선상하유화기타궤선고장시적삼상단로전류봉치서렬,채용 MATLAB/Simulink 연건방진험증료소제출방법적정학성。
The calculation of short-circuit current is an important foundation for power system planning and protection.This paper imputes the forced component of stator flux of doubly-fed induction generator (DFIG) to the stator side and the DC component of stator flux to the rotor side to form the static equivalent circuits.Then the law of variation of the rotor induction flux with its rotor speed is analyzed,and the impact of rotor resistance on the dynamic attenuation of the DC component of stator flux and its inducing process with the rotor winding during a fault is researched.Moreover,the analytic expression of stator current under three-phase short-circuit is derived.Furthermore,the stator short-circuit current characteristics with different crowbar resistance are compared when the short-circuit fault occurs near to or far from the DFIG.Finally,an evaluation method is proposed to determine the three-phase short-circuit peak current of DFIG integrated in the power grid. This method can efficiently calculate the three-phase short-circuit peak current sequence of DFIG when the faults occur at DFIG-side,feeder upstream and downstream,and other feeders in the grid.The correctness of the proposed method is verified in MATLAB/Simulink simulation software.