电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2013年
4期
1121-1127
,共7页
邢鲁华%陈青%吴长静%黄德斌%唐毅
邢魯華%陳青%吳長靜%黃德斌%唐毅
형로화%진청%오장정%황덕빈%당의
双馈风电机组%短路电流%电压跌落%二支路网络%运算曲线
雙饋風電機組%短路電流%電壓跌落%二支路網絡%運算麯線
쌍궤풍전궤조%단로전류%전압질락%이지로망락%운산곡선
doubly fed induction generator%short circuit current%voltage drop%two branch network%computing curve
分析了电网发生对称短路故障时双馈风电机组的电磁暂态模型和定、转子磁链的故障暂态过程,推导出不同定子电压跌落程度下双馈风电机组定子短路电流的表达式,提出可有效减小短路电流计算误差的定子电压跌落系数修正方法,并通过仿真计算验证了修正后短路电流表达式的准确性.提出了含双馈风电机组的电力系统发生对称短路故障时的短路电流实用计算方法.以故障点为分界,将电力系统简化等值为含发电机支路和系统支路的二支路网络,求取发电机支路和系统支路短路电流周期分量的运算曲线,确定短路点短路电流周期分量的幅值,推导了短路点短路电流非周期分量和转子频率分量的表达式.
分析瞭電網髮生對稱短路故障時雙饋風電機組的電磁暫態模型和定、轉子磁鏈的故障暫態過程,推導齣不同定子電壓跌落程度下雙饋風電機組定子短路電流的錶達式,提齣可有效減小短路電流計算誤差的定子電壓跌落繫數脩正方法,併通過倣真計算驗證瞭脩正後短路電流錶達式的準確性.提齣瞭含雙饋風電機組的電力繫統髮生對稱短路故障時的短路電流實用計算方法.以故障點為分界,將電力繫統簡化等值為含髮電機支路和繫統支路的二支路網絡,求取髮電機支路和繫統支路短路電流週期分量的運算麯線,確定短路點短路電流週期分量的幅值,推導瞭短路點短路電流非週期分量和轉子頻率分量的錶達式.
분석료전망발생대칭단로고장시쌍궤풍전궤조적전자잠태모형화정、전자자련적고장잠태과정,추도출불동정자전압질락정도하쌍궤풍전궤조정자단로전류적표체식,제출가유효감소단로전류계산오차적정자전압질락계수수정방법,병통과방진계산험증료수정후단로전류표체식적준학성.제출료함쌍궤풍전궤조적전력계통발생대칭단로고장시적단로전류실용계산방법.이고장점위분계,장전력계통간화등치위함발전궤지로화계통지로적이지로망락,구취발전궤지로화계통지로단로전류주기분량적운산곡선,학정단로점단로전류주기분량적폭치,추도료단로점단로전류비주기분량화전자빈솔분량적표체식.
Electromagnetic transient model of doubly fed induction generator (DFIG) during symmetrical short-circuit fault occurred in power system connected with DFIG and fault transient process of magnetic linkage in the stator and the rotor of DFIG are analyzed, and then the expression of short-circuit current in stator of DFIG under different stator voltage drop extents is derived and a method to correct the stator voltage drop coefficient, by which the calculation error of short-circuit current can be effectively reduced, is put forward. A practical method to calculate short-circuit current caused by symmetrical short-circuit fault occurred in power system connected with DFIGs is proposed. Taking the fault point as boundary point, the power system containing DFIG is simplified to an equivalent two-branch network composed of generator branch and system branch, then the operational curves of periodic components of short-circuit currents in generator branch and system branch are solved respectively to determine the amplitude of periodic components of short-circuit currents at the fault point, and expressions of aperiodic component and rotor frequency component of short circuit current at the fault point are derived.