大电机技术
大電機技術
대전궤기술
LARGE ELECTRIC MACHINE AND HYDRAULIC TURBINE
2013年
5期
13-16,59
,共5页
吴寒%王维庆%王海云%饶成诚%刘凯
吳寒%王維慶%王海雲%饒成誠%劉凱
오한%왕유경%왕해운%요성성%류개
双馈风电机组%变流器%撬棒电路%统一潮流控制器
雙饋風電機組%變流器%撬棒電路%統一潮流控製器
쌍궤풍전궤조%변류기%효봉전로%통일조류공제기
doubly-fed induction generator(DFIG)%converter%crowbar%UPFC
提高风电场的低电压穿越能力LVRT(Low Voltage Ride Through)以及维持并网系统暂态稳定具有重大意义。针对双馈风电机组利用自身背靠背变流器控制电磁转矩和无功功率这一方案的不足以及撬棒保护电路(Crowbar)在故障期间频繁投入与退出可能引起电磁转矩波动的问题。分析了UPFC和双馈风电机组的数学模型与控制策略,在DIgSILENT/PowerFactory中建立了含UPFC的风电并网系统仿真模型,通过研究故障前后风电场PCC节点电压,风电场发出功率状况以及风电机组的转速稳定性,验证了UPFC对风电场电压稳定的支撑作用,并能维持风电并网系统的暂态稳定。
提高風電場的低電壓穿越能力LVRT(Low Voltage Ride Through)以及維持併網繫統暫態穩定具有重大意義。針對雙饋風電機組利用自身揹靠揹變流器控製電磁轉矩和無功功率這一方案的不足以及撬棒保護電路(Crowbar)在故障期間頻繁投入與退齣可能引起電磁轉矩波動的問題。分析瞭UPFC和雙饋風電機組的數學模型與控製策略,在DIgSILENT/PowerFactory中建立瞭含UPFC的風電併網繫統倣真模型,通過研究故障前後風電場PCC節點電壓,風電場髮齣功率狀況以及風電機組的轉速穩定性,驗證瞭UPFC對風電場電壓穩定的支撐作用,併能維持風電併網繫統的暫態穩定。
제고풍전장적저전압천월능력LVRT(Low Voltage Ride Through)이급유지병망계통잠태은정구유중대의의。침대쌍궤풍전궤조이용자신배고배변류기공제전자전구화무공공솔저일방안적불족이급효봉보호전로(Crowbar)재고장기간빈번투입여퇴출가능인기전자전구파동적문제。분석료UPFC화쌍궤풍전궤조적수학모형여공제책략,재DIgSILENT/PowerFactory중건립료함UPFC적풍전병망계통방진모형,통과연구고장전후풍전장PCC절점전압,풍전장발출공솔상황이급풍전궤조적전속은정성,험증료UPFC대풍전장전압은정적지탱작용,병능유지풍전병망계통적잠태은정。
It is essential to improve the Low voltage ride through(LVRT) capability and transient stability of wind farms. But for a DFIG based wind turbine, with the insufficient of the back to back converters using which both the electromagnetic torque and the reactive power can be controlled, and the crowbar switched on and off during the grid fault may induce electromagnetic torque fluctuation. By means of mathematical models and control strategies of UPFC and wind turbine, the simulation models is set up on DIgSILENT/PowerFactory. Through analysis the voltage at PCC node, reactive power generation and the rotor speed of DFIG based wind farms. Simulation results prove that UPFC can support the voltage and maintain the transient stability of wind farms.
