真双极MMC-HVDC系统线路过载紧急控制策略

详细信息    查看全文 | 推荐本文 |

英文篇名：An emergency control strategy for line overload in bipolar MMC-HVDC system 作者：陈浩 ; 张英敏 ; 曾琦 ; 陈可 ; 周保坤 英文作者：Chen Hao;Zhang Yingmin;Zeng Qi;Chen Ke;Zhou Baokun;School of Electrical Engineering and Information,Sichuan University; 关键词：真双极系统 ; 架空线 ; 分布系数 ; 功率灵敏度矩阵 ; 紧急控制策略 英文关键词：bipolar MMC-HVDC system;;overhead line;;distribution coefficient;;power sensitivity matrix;;emergency control strategy 中文刊名：DCYQ 英文刊名：Electrical Measurement & Instrumentation 机构：四川大学电气信息学院; 出版日期：2019-01-16 17:01 出版单位：电测与仪表 年：2019 期：v.56;No.705 基金：国家重点研发计划资助项目(2017YFB0902401) 语种：中文; 页：DCYQ201904018 页数：8 CN：04 ISSN：23-1202/TH 分类号：113-120

摘要

随着直流断路器研究的不断发展,在未来使用直流断路器切除直流故障线路将成为一个可行的方案。但断路器动作后可能会引起线路潮流过载,危及整个直流系统的安全。文章利用真双极模块化多电平换流器直流输电(MMC-HVDC)系统正负极可独立控制的优点,设计了防止线路过载的紧急控制策略。首先推导出直流系统支路开断后的有功功率分布系数,找出可能发生功率越限的线路。然后保持各线路一定的功率裕度,通过功率灵敏度矩阵计算故障极换流站新的功率参考值。最后将减少的功率参考值加载到健康极对应的换流站上,并考虑健康极换流站和线路的功率约束,最大限度地保证交直流系统功率交换的稳定性,减少对交流系统的扰动。该策略能够有效避免潮流校验,提高紧急控制的速度。在PSCAD/EMTDC仿真平台中搭建七端直流模型,对所提控制策略的有效性进行了验证。
        With the development of DC circuit breaker research,it will be a feasible scheme to adopt DC circuit breaker to cut off DC fault lines in the future. However,the circuit breaker may cause the line overload and endanger the safety of the whole DC system. In this paper,an emergency control strategy prevents line overload was proposed in this paper. It takes advantage of the independent control of positive and negative poles in bipolar modular multilevel converter based high voltage direct current (MMC-HVDC) system. Firstly,the active power distribution coefficient after opening the branch of the direct current system was deduced,and the line with the potential power limit can be found out. Then,the power margin of each line was maintained,and the new power reference value of the fault pole converter station was calculated by the power sensitivity matrix. Finally,the reduced power reference value was loaded into the healthy pole converter station,and the power constraints of the healthy pole converter station and the line were considered,which maximized the stability of power exchange of AC/DC system and reduced the disturbance to the AC system. The strategy effectively avoids the power flow check and improves the speed of emergency control. The effectiveness of the proposed control strategy was verified by building a plurality of DC models in the PSCAD/EMTDC.

引文

[1]徐政.柔性直流输电系统[M].北京:机械工业出版社,2013.
    [2]汤广福,贺之渊,庞辉.柔性直流输电工程技术研究、应用及发展[J].电力系统自动化,2013,37(15):3-14.Tang Guangfu,He Zhiyuan,Pang Hui.Research,application and development of VSG-HVDC engineering technology[J].Automation of E-lectric Power Systems,2013,37(15):3-14.
    [3]汤广福,罗湘,魏晓光.多端直流输电与直流电网技术[J].中国电机工程学报,2013,33(10):8-17.Tang Guangfu,Luo Xiang,Wei Xiaoguang.Multi-terminal HVDC and DC-grid technology[J].Proceedings of the CSEE,2013,33(10):8-17.
    [4]汤广福,庞辉,贺之渊.先进交直流输电技术在中国的发展与应用[J].中国电机工程学报,2016,36(7):1760-1771.Tang Guangfu,Pang Hui,He Zhiyuan.R&D and application of advanced power transmission technology in China[J].Proceedings of the CSEE,2016,36(7):1760-1771.
    [5]Candelaria J,Park J D.VSC-HVDC system protection:a review of current methods[C]//IEEE Power Systems Conference and Exposition.2011:1-7.
    [6]Callavik M,Blomberg A,Hafner J,et al.The hybrid HVDC breakeran innovation breakthrough enabling reliable HVDC grids[J].ABBGrid Systems,Technical Paper,2012.
    [7]Hassanpoor A,Hafner J,Jacobson B.Technical assessment of load commutation switch in hybrid HVDC breaker[C]//Power Electronics Conference.IEEE,2014:3667-3673.
    [8]姚良忠,吴婧,王志冰,等.未来高压直流电网发展形态分析[J].中国电机工程学报,2014,(34):6007-6020.Yao Liangzhong,Wu Jing,Wang Zhibing,et al.Pattern analysis of future HVDC grid development[J].Proceedings of the CSEE,2014,34(34):6007-6020.
    [9]郭晓茜,崔翔,齐磊.架空线双极MMC-HVDC系统直流短路故障分析和保护[J].中国电机工程学报,2017,37(8):2177-2184.Guo Xiaoqian,Cui Xiang,Qi Lei.DC short-circuit fault analysis and protection for the overhead line bipolar MMC-HVDC system[J].Proceedings of the CSEE,2017,37(8):2177-2184.
    [10]徐政,薛英林,张哲任.大容量架空线柔性直流输电关键技术及前景展望[J].中国电机工程学报,2014,34(29):5051-5062.Xu Zheng,Xue Yinglin,Zhang Zheren.VSC-HVDC technology suitable for bulk power overhead line transmission[J].Proceedings of the CSEE,2014,34(29):5051-5062.
    [11]吴亚楠,吕铮,贺之渊,等.基于架空线的直流电网保护方案研究[J].中国电机工程学报,2016,36(14):3726-3733.Wu Yanan,Lv Zheng,He Zhiyuan,et al.Study on the protection strategies of HVDC grid for overhead line application[J].Proceedings of the CSEE,2016,36(14):3726-3733.
    [12]孙栩,曹士冬,卜广全,等.架空线柔性直流电网构建方案[J].电网技术,2016,40(3):678-682.Sun Xu,Cao Shidong,Bu Guangquan,et al.Construction scheme of overhead line flexible HVDC grid[J].Power System Technology,2016,40(3):678-682.
    [13]Li C,Zhao C,Xu J,et al.A pole-to-pole short-circuit fault current calculation method for DC grids[J].IEEE Transactions on Power Systems,2017,32(6):4943-4953.
    [14]陈继开,孙川,李国庆,等.双极MMC-HVDC系统直流故障特性研究[J].电工技术学报,2017,32(10):53-60.Chen Jikai,Sun Chuan,Li Guoqing,et al.Study on characteristics of DC fault in bipolar MMC-HVDC system[J].Transactions of China Electrotechnical Society,2017,32(10):53-60.
    [15]Wang Y,Yuan Z,Fu J,et al.A feasible coordination protection strategy for MMC-MTDC systems under DC faults[J].International Journal of Electrical Power&Energy Systems,2017,90:103-111.
    [16]Xue Y,Xu Z.On the bipolar MMC-HVDC topology suitable for bulk power overhead line transmission:configuration,control,and DC fault analysis[J].IEEE Transactions on Power Delivery,2014,29(6):2420-2429.
    [17]王江天,王兴国,马静,等.双极MMC-HVDC系统故障限流及换流器快速重启策略研究[J].中国电机工程学报,2017,37(S1):21-29.
    [18]Hu K.Improved active and reactive power control for symmetrical bipolar MMC-HVDC systems during DC side PTG fault[J].The Journal of Engineering,2017,1(1):885-891.
    [19]何炎,李周,李亚州,等.基于真双极接线的VSC-MTDC系统功率转代策略[J].电力系统自动化,2017,41(19):95-101.
    [20]刘天琪.现代电力系统分析理论与方法[M].北京:中国电力出版社,2007.
    [21]徐岩,郅静.基于功率灵敏度的线路过载划区域紧急控制策略[J].电工技术学报,2015,30(15):60-72.