电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
Power System Protection and Control
2015年
18期
6-11
,共6页
沈浩然%张建华%丁磊%戴春蕾
瀋浩然%張建華%丁磊%戴春蕾
침호연%장건화%정뢰%대춘뢰
风力发电%双馈发电机%单相接地故障%数学模型%瞬态特性
風力髮電%雙饋髮電機%單相接地故障%數學模型%瞬態特性
풍력발전%쌍궤발전궤%단상접지고장%수학모형%순태특성
wind power generation%doubly-fed generator%single-phase grounding fault%mathematical model%transient characteristic
为了便于研究 DFIG 在不对称电压跌落下低电压穿越运行的控制策略,有必要对不对称电压跌落时 DFIG的瞬态特性进行研究.基于DFIG定、转子磁链的瞬态变化机理,对DFIG单相接地故障瞬态特性进行研究,推导出了DFIG在发生单相接地故障时的定、转子电流,电磁转矩,输出有功功率与无功功率的解析表达式,并分析得到影响单相接地故障时电磁过渡过程的主要因素.在Matlab/Simulink中搭建了1.5 MW双馈异步发电机单相接地故障仿真模型.仿真结果和解析计算结果高度吻合,证明了推导的解析表达式的正确性和有效性,为双馈异步发电机不对称LVRT控制策略提供了理论基础.
為瞭便于研究 DFIG 在不對稱電壓跌落下低電壓穿越運行的控製策略,有必要對不對稱電壓跌落時 DFIG的瞬態特性進行研究.基于DFIG定、轉子磁鏈的瞬態變化機理,對DFIG單相接地故障瞬態特性進行研究,推導齣瞭DFIG在髮生單相接地故障時的定、轉子電流,電磁轉矩,輸齣有功功率與無功功率的解析錶達式,併分析得到影響單相接地故障時電磁過渡過程的主要因素.在Matlab/Simulink中搭建瞭1.5 MW雙饋異步髮電機單相接地故障倣真模型.倣真結果和解析計算結果高度吻閤,證明瞭推導的解析錶達式的正確性和有效性,為雙饋異步髮電機不對稱LVRT控製策略提供瞭理論基礎.
위료편우연구 DFIG 재불대칭전압질락하저전압천월운행적공제책략,유필요대불대칭전압질락시 DFIG적순태특성진행연구.기우DFIG정、전자자련적순태변화궤리,대DFIG단상접지고장순태특성진행연구,추도출료DFIG재발생단상접지고장시적정、전자전류,전자전구,수출유공공솔여무공공솔적해석표체식,병분석득도영향단상접지고장시전자과도과정적주요인소.재Matlab/Simulink중탑건료1.5 MW쌍궤이보발전궤단상접지고장방진모형.방진결과화해석계산결과고도문합,증명료추도적해석표체식적정학성화유효성,위쌍궤이보발전궤불대칭LVRT공제책략제공료이론기출.
In order to research the control strategy of low voltage ride through (LVRT) of DFIG during the asymmetric voltage sag, it is necessary to research the transient characteristic of DFIG during the asymmetric voltage sag. This paper utilizes the transient change mechanism of DFIG stator and rotor flux in the case of single-phase grounding fault, deduces and obtains analytical expressions about stator transient current, electromagnetic torque, output active power and reactive power of DFIG. On the basis of above, the main factors are got which affect single-phase grounding fault electromagnetic transient process. And simulation model of 1.5 MW DFIG during single-phase grounding fault is built on MATLAB/Simulink, the simulation results are closely consistent with the analytical calculation results, which shows the correctness and effectiveness of the analytical expressions derived. Analysis of this paper can provide theoretical basis for control strategy of asymmetric LVRT.