电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2014年
3期
638-646
,共9页
刘巨%姚伟%文劲宇%黄莹%刘源%马蕊
劉巨%姚偉%文勁宇%黃瑩%劉源%馬蕊
류거%요위%문경우%황형%류원%마예
大规模风电%频率调整%控制策略%调频能力%储能系统
大規模風電%頻率調整%控製策略%調頻能力%儲能繫統
대규모풍전%빈솔조정%공제책략%조빈능력%저능계통
large-scale wind farm%frequency regulation%control strategies%frequency regulation ability%energy storage system
要求风电主动参与系统频率调整是风电大规模并网后电力系统为保证其自身安全做出的必然选择。世界多个国家的风电并网导则对此提出了明确要求。然而,传统的风电机组一般都没有提供频率调整功能,风电如何参与调频是目前的研究热点。从风电参与系统调频的控制策略和能力评估两个方面对相关研究进展进行了综述。控制方面,对比研究了模拟惯量控制、下垂控制、转子转速控制、桨距角控制以及协调控制等不同控制策略。调频能力方面,分析了单台及多台风电机组的调频能力,归纳了风电区域互补性对调频能力的影响。并展望了需进一步重点研究的内容:风电场内部机组间及风电场与常规系统间的协调控制、风电场与储能等新技术的协调控制、风电场参与调频的能力评估与经济性分析。
要求風電主動參與繫統頻率調整是風電大規模併網後電力繫統為保證其自身安全做齣的必然選擇。世界多箇國傢的風電併網導則對此提齣瞭明確要求。然而,傳統的風電機組一般都沒有提供頻率調整功能,風電如何參與調頻是目前的研究熱點。從風電參與繫統調頻的控製策略和能力評估兩箇方麵對相關研究進展進行瞭綜述。控製方麵,對比研究瞭模擬慣量控製、下垂控製、轉子轉速控製、槳距角控製以及協調控製等不同控製策略。調頻能力方麵,分析瞭單檯及多檯風電機組的調頻能力,歸納瞭風電區域互補性對調頻能力的影響。併展望瞭需進一步重點研究的內容:風電場內部機組間及風電場與常規繫統間的協調控製、風電場與儲能等新技術的協調控製、風電場參與調頻的能力評估與經濟性分析。
요구풍전주동삼여계통빈솔조정시풍전대규모병망후전력계통위보증기자신안전주출적필연선택。세계다개국가적풍전병망도칙대차제출료명학요구。연이,전통적풍전궤조일반도몰유제공빈솔조정공능,풍전여하삼여조빈시목전적연구열점。종풍전삼여계통조빈적공제책략화능력평고량개방면대상관연구진전진행료종술。공제방면,대비연구료모의관량공제、하수공제、전자전속공제、장거각공제이급협조공제등불동공제책략。조빈능력방면,분석료단태급다태풍전궤조적조빈능력,귀납료풍전구역호보성대조빈능력적영향。병전망료수진일보중점연구적내용:풍전장내부궤조간급풍전장여상규계통간적협조공제、풍전장여저능등신기술적협조공제、풍전장삼여조빈적능력평고여경제성분석。
It is an inevitable choice to ensure its own security of power grid to claim grid-connected large-scale wind farm participating into grid frequency regulation, and in many countries in the world such a claim is clearly raised in the guidance of grid-connection of wind farms. However, the function of frequency regulation is not offered to traditional wind power generating units, so how wind farms can participate into frequency regulation becomes research hotspot presently. Present progress of related researches in two aspects, i.e., the control strategy for wind power systems participating system frequency regulation and its capability assessment is summarized. In the aspect of the control modes, contrastive research on different control strategies such as inertia emulation control, droop control, rotor speed control, pitch angle control and coordinated control is performed, and the frequency regulation capability of single and multi wind power generating units is analyzed and the complementarity among regions where wind farm locate on frequency regulation capability is summed up, and then the contents to be further researched, such as the coordinated control among wind power generating units inside wind farm and that between wind farm and conventional power grids, the coordinated control among wind farms and new technologies, for instance, the energy storage system and so on, the capability assessment and economy analysis on wind farm participating into frequency regulation, are prospected.