中国电机工程学报
中國電機工程學報
중국전궤공정학보
Proceedings of the CSEE
2015年
19期
4879-4887,后插2
,共10页
刘昇%徐政%李文云%吴琛%王兴刚%李玲芳%游广增
劉昇%徐政%李文雲%吳琛%王興剛%李玲芳%遊廣增
류승%서정%리문운%오침%왕흥강%리령방%유엄증
电压源换流器型直流输电系统%小水电群%弱交流系统%暂态稳定性%协调控制
電壓源換流器型直流輸電繫統%小水電群%弱交流繫統%暫態穩定性%協調控製
전압원환류기형직류수전계통%소수전군%약교류계통%잠태은정성%협조공제
VSC-HVDC%small hydropower%weak AC systems%transient stability%coordination control
小水电群富集的地区电网与主网的交流联络较弱时,容易引起系统低频振荡问题.用电压源换流器型直流输电系统(voltage source converter based high voltage direct current transmission,VSC-HVDC)异步联接小水电群电网与主网的方式可消除小水电群引起的低频振荡问题.但小水电群电网属于弱交流系统,此场景下VSC-HVDC有必要参与弱交流系统的电压和频率控制.该文设计了一种改善交流系统暂态稳定性的 VSC-HVDC 交流电压-频率协调控制策略,该策略的首要控制目标是保证VSC-HVDC设备的安全,第二控制目标是提高交流系统的电压稳定性,第三控制目标是提高交流系统的频率稳定性.设计的协调控制器结构能够确保暂态过程中多个控制目标按照优先级顺序实现.以云南电网的实例分析表明:VSC-HVDC异步联网方案能够有效提高系统的小扰动稳定性水平;VSC-HVDC交流电压-频率协调控制策略能够改善交流系统的暂态稳定性.
小水電群富集的地區電網與主網的交流聯絡較弱時,容易引起繫統低頻振盪問題.用電壓源換流器型直流輸電繫統(voltage source converter based high voltage direct current transmission,VSC-HVDC)異步聯接小水電群電網與主網的方式可消除小水電群引起的低頻振盪問題.但小水電群電網屬于弱交流繫統,此場景下VSC-HVDC有必要參與弱交流繫統的電壓和頻率控製.該文設計瞭一種改善交流繫統暫態穩定性的 VSC-HVDC 交流電壓-頻率協調控製策略,該策略的首要控製目標是保證VSC-HVDC設備的安全,第二控製目標是提高交流繫統的電壓穩定性,第三控製目標是提高交流繫統的頻率穩定性.設計的協調控製器結構能夠確保暫態過程中多箇控製目標按照優先級順序實現.以雲南電網的實例分析錶明:VSC-HVDC異步聯網方案能夠有效提高繫統的小擾動穩定性水平;VSC-HVDC交流電壓-頻率協調控製策略能夠改善交流繫統的暫態穩定性.
소수전군부집적지구전망여주망적교류련락교약시,용역인기계통저빈진탕문제.용전압원환류기형직류수전계통(voltage source converter based high voltage direct current transmission,VSC-HVDC)이보련접소수전군전망여주망적방식가소제소수전군인기적저빈진탕문제.단소수전군전망속우약교류계통,차장경하VSC-HVDC유필요삼여약교류계통적전압화빈솔공제.해문설계료일충개선교류계통잠태은정성적 VSC-HVDC 교류전압-빈솔협조공제책략,해책략적수요공제목표시보증VSC-HVDC설비적안전,제이공제목표시제고교류계통적전압은정성,제삼공제목표시제고교류계통적빈솔은정성.설계적협조공제기결구능구학보잠태과정중다개공제목표안조우선급순서실현.이운남전망적실례분석표명:VSC-HVDC이보련망방안능구유효제고계통적소우동은정성수평;VSC-HVDC교류전압-빈솔협조공제책략능구개선교류계통적잠태은정성.
Low frequency oscillation may occur when the connection between regional grids containing many small hydropower stations and the backbone grid is weak. Connecting small hydropower girds to the backbone gird asynchronously by voltage source converter based high voltage direct current transmission (VSC-HVDC) can eliminate the low frequency oscillation. However, the small hydropower grids are weak AC systems, and it is necessary for VSC-HVDCs to participate in controlling the AC voltage and the frequency of the weak systems. A VSC-HVDC AC voltage-frequency coordination control strategy for improving AC system transient stability was proposed. In the strategy, the first objective is to ensure the safety of the VSC-HVDC equipment, the second objective is to improve the AC voltage stability, and the third objective is to improve the frequency stability. The designed controller structure can guarantee that the objectives are implemented in order of priority. A practical case analysis of Yunnan grid demonstrated that the VSC-HVDC connection scheme can improve the small-signal stability of the whole system and the proposed strategy can enhance the transient stability of the weak AC system.
