电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2014年
5期
1250-1256
,共7页
杨硕%王伟胜%刘纯%黄越辉
楊碩%王偉勝%劉純%黃越輝
양석%왕위성%류순%황월휘
风电汇集系统%静态电压稳定指标%无功电压控制%内点法%多目标优化
風電彙集繫統%靜態電壓穩定指標%無功電壓控製%內點法%多目標優化
풍전회집계통%정태전압은정지표%무공전압공제%내점법%다목표우화
wind power centralized system%static voltage stability index%reactive power and voltage control%interior point algorithm%multi-objective optimization
针对风电场集群作为弱联接送端系统所面临的无功电压问题,研究了可应用于大规模风电汇集系统的静态电压稳定评价指标,并在此基础上提出了一种改善风电汇集系统静态电压稳定性的无功电压协调控制策略。该策略采用基于过滤集合的原对偶内点法求解多目标优化控制模型,通过协调控制风电场和汇集站内的多种无功电压调节设备,能够在满足中枢节点电压控制指令的同时均衡汇集系统的电压分布,提高动态设备的无功裕度,从而改善风电汇集系统的静态电压稳定性。对中国北方某实际风电汇集地区的仿真计算验证了所提控制策略的有效性。
針對風電場集群作為弱聯接送耑繫統所麵臨的無功電壓問題,研究瞭可應用于大規模風電彙集繫統的靜態電壓穩定評價指標,併在此基礎上提齣瞭一種改善風電彙集繫統靜態電壓穩定性的無功電壓協調控製策略。該策略採用基于過濾集閤的原對偶內點法求解多目標優化控製模型,通過協調控製風電場和彙集站內的多種無功電壓調節設備,能夠在滿足中樞節點電壓控製指令的同時均衡彙集繫統的電壓分佈,提高動態設備的無功裕度,從而改善風電彙集繫統的靜態電壓穩定性。對中國北方某實際風電彙集地區的倣真計算驗證瞭所提控製策略的有效性。
침대풍전장집군작위약련접송단계통소면림적무공전압문제,연구료가응용우대규모풍전회집계통적정태전압은정평개지표,병재차기출상제출료일충개선풍전회집계통정태전압은정성적무공전압협조공제책략。해책략채용기우과려집합적원대우내점법구해다목표우화공제모형,통과협조공제풍전장화회집참내적다충무공전압조절설비,능구재만족중추절점전압공제지령적동시균형회집계통적전압분포,제고동태설비적무공유도,종이개선풍전회집계통적정태전압은정성。대중국북방모실제풍전회집지구적방진계산험증료소제공제책략적유효성。
In allusion to the reactive power and voltage issue that the integrated wind farm cluster, which is regarded as a weakly connected sending-end system, has to be faced with, the static voltage stability evaluation index for large-scale wind power centralized system is researched, and on this basis a coordinated strategy for reactive power and voltage control to improve the static voltage stability of wind power centralized system is proposed. The prime-dual interior point filter algorithm is used in the proposed strategy to solve the multi-objective optimization control model. Through coordinative control of various reactive power and voltage regulation equipment configured in wind farms and centralized station, the voltage distribution within the wind power centralized system can be equalized while the voltage control instruction of pilot node is satisfied to enhance the reactive power margin of dynamic equipment, thus the static voltage stability of wind power centralized system can be improved. The effectiveness of the proposed control strategy is validated by simulation results of a certain wind farm centralized system in North China.