电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2014年
16期
81-87
,共7页
朱瑞可%王渝红%李兴源%应大力%赵岩
硃瑞可%王渝紅%李興源%應大力%趙巖
주서가%왕투홍%리흥원%응대력%조암
电压源换流器%频率稳定性%斜率特性%柔性直流输电
電壓源換流器%頻率穩定性%斜率特性%柔性直流輸電
전압원환류기%빈솔은정성%사솔특성%유성직류수전
voltage source converter (VSC)%frequency stability%droop characteristic%voltage source converter based high voltage direct current(VSC-HVDC)
为使柔性直流输电(VSC-HVDC)系统两侧交流系统在发生事故时具有相互支援的能力,文中提出一种附加频率控制策略。该策略在定有功功率控制器中引入了频率-有功功率和直流电压-有功功率斜率特性,在定直流电压控制器中引入频率-直流电压斜率特性,不需要站间通信就可以实现两端交流系统通过 VSC-HVDC 参与彼此的频率调整,减轻事故端系统的调频负担,提高故障期间直流系统的安全稳定性。最后,通过仿真软件 PSCAD/EMTDC 进行仿真验证,结果表明所提策略充分利用了 VSC-HVDC 互联系统的频率调整能力,提高了 VSC-HVDC 互联系统的频率稳定性。
為使柔性直流輸電(VSC-HVDC)繫統兩側交流繫統在髮生事故時具有相互支援的能力,文中提齣一種附加頻率控製策略。該策略在定有功功率控製器中引入瞭頻率-有功功率和直流電壓-有功功率斜率特性,在定直流電壓控製器中引入頻率-直流電壓斜率特性,不需要站間通信就可以實現兩耑交流繫統通過 VSC-HVDC 參與彼此的頻率調整,減輕事故耑繫統的調頻負擔,提高故障期間直流繫統的安全穩定性。最後,通過倣真軟件 PSCAD/EMTDC 進行倣真驗證,結果錶明所提策略充分利用瞭 VSC-HVDC 互聯繫統的頻率調整能力,提高瞭 VSC-HVDC 互聯繫統的頻率穩定性。
위사유성직류수전(VSC-HVDC)계통량측교류계통재발생사고시구유상호지원적능력,문중제출일충부가빈솔공제책략。해책략재정유공공솔공제기중인입료빈솔-유공공솔화직류전압-유공공솔사솔특성,재정직류전압공제기중인입빈솔-직류전압사솔특성,불수요참간통신취가이실현량단교류계통통과 VSC-HVDC 삼여피차적빈솔조정,감경사고단계통적조빈부담,제고고장기간직류계통적안전은정성。최후,통과방진연건 PSCAD/EMTDC 진행방진험증,결과표명소제책략충분이용료 VSC-HVDC 호련계통적빈솔조정능력,제고료 VSC-HVDC 호련계통적빈솔은정성。
In order to enable the AC systems at the two sides of voltage source converter based high voltage direct current (VSC-HVDC) system to provide frequency support to each other under a fault,an additional frequency control strategy is proposed.The droop characteristics of frequency-active power and DC voltage-active power are introduced in the active power controller,meanwhile the droop characteristics of frequency-DC voltage are introduced in the DC voltage controller.Both the AC systems can participate in each other”s frequency adjustment through VSC-HVDC without interstation communications. The frequency adjustment burden of the AC system under fault will be relieved,and the frequency stability of the DC system will be improved as well.Finally,simulations with PSCAD/EMTDC verify that the proposed control strategy is able to enhance the frequency stability with full use of the frequency adjustment ability. This work is supported by National Basic Research Program of China (973 Program)(No.2013CB2280204) and State Grid Corporation of China.