2025年3月30日 周日
首页 > 过刊浏览>2025年第40卷第1期 >47-54. DOI:10.19781/j.issn.1673-9140.2025.01.005
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基于统一潮流控制器的负序抑制最优潮流算法
作者:
作者单位:

(1.河海大学能源与电气学院,江苏 南京 211100;2.贵州电网有限责任公司电网规划研究中心,贵州 贵阳 550000)

通讯作者:

陈杉桐(1998—),男,硕士研究生,主要从事电力电子化电力系统建模与分析的研究;E?mail:1061525824@qq.com

中图分类号:

TM46;TM714

基金项目:

国家自然科学基金(51377046)


Optimal power flow algorithm with negative‑sequence suppression based on unified power flow controller
Author:
Affiliation:

(1.College of Energy and Electrical Engineering,Hohai University,Nanjing 211100,China; 2.Power Grid Planning & Research Center,Guizhou Power Grid Co.,Ltd.,Guiyang 550000,China)

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    摘要:

    随着新能源发电比例越来越高,其受电网三相不平衡的影响越来越明显,尤其负序超标是导致电力系统安全性降低的重要原因。统一潮流控制器(unified power flow controller,UPFC)具有调节各序电流输出的能力,可用于提升系统的平衡性。为此,首先建立基于解耦?补偿原理的UPFC正序最优补偿潮流算法;其次构建UPFC的负序补偿电流控制模型,将电压不平衡补偿的优化求解问题归结为凸二次约束二次规划(quadratically constrained quadratic programming,QCQP)问题,并采用原?对偶内点法求取UPFC的负序电流最优输出值;最后提出计及正序网损与负序电压指标的负序电压补偿最优潮流(optimal power flow,OPF)计算方法以及区域负序电压总体补偿策略。通过算例分析验证所提出方法的可行性与有效性。

    Abstract:

    With the increasing proportion of renewable energy generation, the impact of grid three-phase imbalance is becoming more and more apparent, especially the excess negative sequence is an important reason for reducing the safety of power systems. The unified power flow controller (UPFC) has the ability to adjust the output of each sequence current, which can be used to improve the balance of the system. Firstly, an optimal compensation algorithm of UPFC for positive-sequence power flow based on the decoupling-compensation principle is established. Secondly, a current control model of UPFC for negative-sequence compensation is constructed, and the optimization problem of voltage imbalance compensation is attributed to the convex quadratically constrained quadratic programming (QCQP). The primal-dual interior point method is used to obtain the optimal output value of the UPFC negative-sequence current. Finally, an optimal power flow calculation method for negative-sequence voltage compensation considering positive-sequence grid loss and negative-sequence voltage index, as well as an overall compensation strategy for regional negative-sequence voltage, are proposed. The feasibility and effectiveness of the proposed method are verified through example analysis.

    参考文献
    [1] 孟凡涛,何柏娜,吴硕,等.可控型混合无功补偿对瞬态恢复电压影响研究[J].电力系统保护与控制,2023,51(7):126-134. MENG Fantao,HE Baina,WU Shuo,et al.The influence of controllable hybrid reactive power compensation on transient recovery voltage[J].Power System Protection and Control,2023,51(7):126-134.
    [2] 张黎元,宋兴旺,李冰洁,等.基于自注意力PPO算法的智能配电网多设备协同无功优化控制策略[J].智慧电力,2024,52(10):40-48. ZHANG Liyuan,SONG Xingwang,LI Bingjie,et al.Multi-device cooperative reactive power optimization control strategy of intelligent distribution network based on self-attention PPO Algorithm[J].Smart Power,2024,52(10):40-48.
    [3] 刘涛,韩海英,邬世杰,等.光伏接入中低压配网下的无功补偿优化配置[J].电网与清洁能源,2024,40(10):142-148. LIU Tao,HAN Haiying,WU Shijie,et al.The optimal configuration of reactive power compensation under PV access to medium and low voltage distribution networks[J].Power System and Clean Energy,2024,40(10):142-148.
    [4] 周良才,周毅,沈维健,等.基于深度强化学习的新型电力系统无功电压优化控制[J].电测与仪表,2024,61(9):182-189. ZHOU Liangcai,ZHOU Yi,SHEN Weijian,et al.Reactive voltage optimization control of new power system based on deep reinforcement learning[J].Electrical Measurement & Instrumentation,2024,61(9):182-189.
    [5] 尚磊,唐王倩云,苏适,等.构网型无功补偿抑制新能源送端暂态过电压[J].电力工程技术,2024,43(2):83-93. SHANG Lei,TANG Wangqianyun,SU Shi,et al.Network type reactive power compensation suppresses transient overvoltage at the transmission end of new energy[J].Electric Power Engineering Technology,2024,43 (2): 83-93.
    [6] 孙健浩,初壮.考虑碳交易和无功补偿的分布式电源优化配置[J].发电技术,2024,45(1):142-150. SUN Jianhao,CHU Zhuang.Optimal configuration of distributed generation considering carbon trading and reactive power compensation[J].Power Generation Technology,2024,45(1):142-150.
    [7] 胡泰山,刘刚,蔡汉生,等.500 kV同塔双回线路相序与换位对电流不平衡影响分析[J].电气应用,2022,41(2):13-19. HU Taishan,LIU Gang,CAI Hansheng,et al.Analysis of the influence of phase sequence and transposition on current imbalance of 500 kV double circuit lines on the same tower[J].Electrotechnical Application,2022,41(2):13-19.
    [8] 刘成军,汪新,赵先浩,等.剩余无功电量最小的变电站无功补偿优化配置[J].供用电,2023,40(5):12-17. LIU Chengjun,WANG Xin,ZHAO Xianhao,et al.Reactive power optimization configuration in substation based on minimum residual reactive power[J].Distribution & Utilization,2023,40(5):12-17.
    [9] 林志雄,陈岩,蔡金锭,等.低压配电网三相不平衡运行的影响及治理措施[J].电力科学与技术学报,2009,24(3):63-67. LIN Zhixiong,CHEN Yan,CAI Jinding,et al.Impact and countermeasure of three-phase unbalanced operation for low voltage distribution systems[J].Journal of Electric Power Science and Technology,2009,24(3):63-67.
    [10] 李钊,王翀,吴小丹,等.星形链式STATCOM不对称负荷补偿策略[J].电力电子技术,2017,51(5):46-50. LI Zhao,WANG Chong,WU Xiaodan,et al.Unbalance load compensation strategy of cascade STATCOM with star configuration[J].Power Electronica,2017,51(5):46-50.
    [11] 和鹏,许荣彪,段军鹏,等.基于改进人工蜂群算法的SVG综合补偿容量优化研究[J].电工技术,2023(2):45-48. HE Peng,XU Rongbiao,DUAN Junpeng,Research on optimization of SVG comprehensive compensation capacity based on improved artificial bee colony algorithm[J].Electric Engineering,2023(2): 45-48.
    [12] 成静红,粟忠来.配电台区电能质量问题的混合补偿的研究[J].电力电容器与无功补偿,2020,41(2):32-37+52. CHENG Jinghong,SU Zhonglai.Research on hybrid compensation of power quality problem in distribution network[J].Power Capacitor & Reactive Power Compensation,2020,41(2):32-37+52.
    [13] 郭宝甫,徐军,郝全睿,等.三相串联VSC的通用控制策略[J].南方电网技术,2016,10(2):1-9. GUO Baofu,XU Jun,HAO Quanrui,et al.Universal control strategy for three-phase series-connected voltage source converters[J].Southern Power System Technology,2016,10(2):1-9.
    [14] 辛业春,李国庆,李卫国,等.串联型配电网三相电压不平衡补偿器的研究[J].电力电子技术,2014,48(9):13-15. XIN Yechun,LI Guoqing,LI Weiguo,et al.Research on series power quality regulator for distribution system voltage unbalance compensator[J].Power Electronics,2014,48(9):13-15.
    [15] 曾祥君,李理,喻锟,等.抑制配电网三相不平衡的柔性接地装置控制方法[J].电力科学与技术学报,2020,35(3):19-28. ZENG Xiangjun,LI Li,YU Kun,et al.Research on control method of flexible grounding device for suppressing unbalance in distribution network[J].Journal of Electric Power Science and Technology,2020,35(3):19-28.
    [16] 陈忠.TNPC并联静止同步补偿器不平衡负荷控制策略[J].电力电容器与无功补偿,2018,39(4):47-53. CHEN Zhong.Unbalanced load control strategy for TNPC parallel static synchronous compensator[J].Power Capacitor & Reactive Power Compensation,2018,39(4):47-53.
    [17] 翟灏,卓放,易皓,等.基于SVG的电网多节点电压不平衡综合抑制方法[J].电力系统自动化,2017,41(12):40-47. ZHAI Hao,ZHUO Fang,YI Hao,et al.SVG Based comprehensive unbalance suppression method for multi-node voltage[J].Automation of Electric Power Systems.2017,41(12):40-47.
    [18] 穆怀天,廉洪亮,刘娟,等.基于数据物理融合驱动配电网三相线性化潮流及线损分析应用[J].中国电力,2024,57(10): 46-56.MU Huaitian,LIAN Hongliang,LIU Juan,et al.Application of three-phase linearized power flow and line loss analysis of distribution network driven by data and physics fusion[J].Electric Power,2024,57(10): 46-56.
    [19] 潘骏,夏祥武,李梁,等.基于关联潮流感知与高斯混合模型的异常用电检测[J].电力建设,2023,44(11): 138-148.PAN Jun,XIA Xiangwu,LI Liang,et al.Abnormal power consumption detection based on associative power flow sensing and Gaussian mixture model[J].Electric Power Construction,2023,44(11): 138-148.
    [20] 王锡凡.现代电力系统分析[M].北京:科学出版社,2022:31?35. WANG Xifan.Modern power system analysis[M].Beijing: Science Press,2022:31?35.
    [21] 周玲,王宽,钱科军,等.计及UPFC的电力系统无功优化[J].中国电机工程学报,2008,14(4):37-41. ZHOU Ling,WANG Kuan,QIAN Kejun,et al.Power system reactive power optimization considering UPFC installation[J].Proceedings of the CSEE,2008,14 (4): 37-41.
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陈 谦,陈杉桐,张 裕,等.基于统一潮流控制器的负序抑制最优潮流算法[J].电力科学与技术学报,2025,40(1):47-54.
CHEN Qian, CHEN Shantong, ZHANG Yu, et al. Optimal power flow algorithm with negative‑sequence suppression based on unified power flow controller[J]. Journal of Electric Power Science and Technology,2025,40(1):47-54.

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