广东电力
廣東電力
엄동전력
GUANGDONG ELECTRIC POWER
2015年
4期
19-25,35
,共8页
严干贵%张菁%高扬%张佳薇%刘奇骜%曲锐
嚴榦貴%張菁%高颺%張佳薇%劉奇驁%麯銳
엄간귀%장정%고양%장가미%류기오%곡예
大规模风电%双馈感应风电机组%频率调整%减载运行%调频策略
大規模風電%雙饋感應風電機組%頻率調整%減載運行%調頻策略
대규모풍전%쌍궤감응풍전궤조%빈솔조정%감재운행%조빈책략
large-scale wind power%double-fed induction wind power generator%frequency regulating%deloading operation%frequency regulating strategy
电力系统频率是衡量电力系统电能质量的重要指标,风电机组自身运行特性导致大规模风电并网对系统频率稳定产生极大威胁,风电参与系统调频将成为电力系统未来发展的必然趋势。由于风机本身不具备频率调整的能力,因此风电机组调频控制策略已成为目前风力发电技术的研究热点,为此,在双馈感应风电机组(double fed induction generator,DFIG)正常运行控制基础上,对其参与系统调频控制策略方面相关研究进行分析和综述,分析了减载(deloading,del)运行参与调频的必要性和最优减载法案,研究虚拟惯性控制、下垂控制、桨距角控制等控制方法及其相互辅助从而达到高效调频的协调控制策略,最后展望了需进一步重点研究的内容:储能技术参与风电场调频的协调控制,风电参与系统调频的经济性分析。
電力繫統頻率是衡量電力繫統電能質量的重要指標,風電機組自身運行特性導緻大規模風電併網對繫統頻率穩定產生極大威脅,風電參與繫統調頻將成為電力繫統未來髮展的必然趨勢。由于風機本身不具備頻率調整的能力,因此風電機組調頻控製策略已成為目前風力髮電技術的研究熱點,為此,在雙饋感應風電機組(double fed induction generator,DFIG)正常運行控製基礎上,對其參與繫統調頻控製策略方麵相關研究進行分析和綜述,分析瞭減載(deloading,del)運行參與調頻的必要性和最優減載法案,研究虛擬慣性控製、下垂控製、槳距角控製等控製方法及其相互輔助從而達到高效調頻的協調控製策略,最後展望瞭需進一步重點研究的內容:儲能技術參與風電場調頻的協調控製,風電參與繫統調頻的經濟性分析。
전력계통빈솔시형량전력계통전능질량적중요지표,풍전궤조자신운행특성도치대규모풍전병망대계통빈솔은정산생겁대위협,풍전삼여계통조빈장성위전력계통미래발전적필연추세。유우풍궤본신불구비빈솔조정적능력,인차풍전궤조조빈공제책략이성위목전풍력발전기술적연구열점,위차,재쌍궤감응풍전궤조(double fed induction generator,DFIG)정상운행공제기출상,대기삼여계통조빈공제책략방면상관연구진행분석화종술,분석료감재(deloading,del)운행삼여조빈적필요성화최우감재법안,연구허의관성공제、하수공제、장거각공제등공제방법급기상호보조종이체도고효조빈적협조공제책략,최후전망료수진일보중점연구적내용:저능기술삼여풍전장조빈적협조공제,풍전삼여계통조빈적경제성분석。
Frequency of the power system is an important index for measuring electric power energy quality of the system. Running characteristic of wind power generator may cause great threat to frequency stability of the system by large-scale wind power integration. Wind power participating in frequency regulating of the system is to be an inexorable trend of future development of the power system. Because wind power generation does not have ability of frequency regulating,control strategy for frequency regulating of wind power generator has become a research hotspot. Therefore,on the basis of normal operational control on double-fed induction generator(DFIG),this paper analyzes and summarizes control strategies for its participating in frequency regulating,analyzes necessity of deloading operation for frequency regulating and optimal deload-ing act. It also studies control methods such as virtual inertia control,droop control and pitch angle control as well as their mutual assists in order to realize coordination control strategies for highly effective frequency regulating. It expects contents for further focused research including coordination control of energy storage technology participating in frequency regulating of wind power station and economy analysis on wind power participating in system frequency regulating.
