双高电力系统频率安全问题评述及其应对措施

被引:181
作者
张子扬 [1 ]
张宁 [1 ]
杜尔顺 [2 ]
康重庆 [1 ]
王智冬 [3 ]
机构
[1] 电力系统及发电设备控制和仿真国家重点实验室(清华大学电机系)
[2] 清华大学低碳能源实验室
[3] 国网经济技术研究院有限公司
关键词
高比例可再生能源; 高比例电力电子设备; 低惯量; 频率安全; 虚拟同步;
D O I
10.13334/j.0258-8013.pcsee.211425
中图分类号
TM73 [电力系统的调度、管理、通信];
学科分类号
080802 ;
摘要
在能源系统低碳化转型的过程中,电力系统中的可再生能源和电力电子设备比例快速增长,高比例可再生能源、高比例电力电子设备的"双高"特征为未来电力系统的频率安全带来严峻挑战。文中首先分析电力系统的双高特征为电力系统频率响应特性所带来的4点新特性:传统调频资源稀缺化、频率时空分布差异化、频率调控手段多样化和频率动态机理复杂化。然后对比了时域仿真法、模型分析法和机器学习法3类主流的频率响应分析方法,在此基础上,从逆变器控制、低频减载保护、直流功率支援、系统调度运行和调频市场设计5个方面分析了改善双高电力系统频率响应特性的技术新进展。最后针对未来双高电力系统频率安全问题进行总结和展望。
引用
收藏
页码:1 / 25
页数:25
相关论文
共 143 条
[1]  
中国电力行业年度发展报告.[M].中国电力企业联合会.中国建材工业出版社.2020,
[2]  
电力系统优化规划.[M].王锡凡主编;.水利电力出版社.1990,
[3]   Analytic assessment of the power system frequency security [J].
Ju, Ping ;
Zheng, Yi ;
Jin, Yuqing ;
Qin, Chuan ;
Jiang, Yefeng ;
Cao, Lu .
IET GENERATION TRANSMISSION & DISTRIBUTION, 2021, 15 (15) :2215-2225
[4]   Frequency Stability of Synchronous Machines and Grid-Forming Power Converters [J].
Tayyebi, Ali ;
Gross, Dominic ;
Anta, Adolfo ;
Kupzog, Friederich ;
Doerfler, Florian .
IEEE JOURNAL OF EMERGING AND SELECTED TOPICS IN POWER ELECTRONICS, 2020, 8 (02) :1004-1018
[5]  
A review on rapid responsive energy storage technologies for frequency regulation in modern power systems.[J].Umer Akram;Mithulananthan Nadarajah;Rakibuzzaman Shah;Federico Milano.Renewable and Sustainable Energy Reviews.2020,
[6]   Continuous Under-Frequency Load Shedding Scheme for Power System Adaptive Frequency Control [J].
Li, Changgang ;
Wu, Yue ;
Sun, Yanli ;
Zhang, Hengxu ;
Liu, Yutian ;
Liu, Yilu ;
Terzija, Vladimir .
IEEE TRANSACTIONS ON POWER SYSTEMS, 2020, 35 (02) :950-961
[7]   Impact of Synchrophasor Estimation Algorithms in ROCOF-Based Under-Frequency Load-Shedding [J].
Zuo, Yihui ;
Frigo, Guglielmo ;
Derviskadic, Asja ;
Paolone, Mario .
IEEE TRANSACTIONS ON POWER SYSTEMS, 2020, 35 (02) :1305-1316
[8]   Impact of High Renewable Penetration on the Power System Operation Mode: A Data-Driven Approach [J].
Hou, Qingchun ;
Du, Ershun ;
Zhang, Ning ;
Kang, Chongqing .
IEEE TRANSACTIONS ON POWER SYSTEMS, 2020, 35 (01) :731-741
[9]  
Modeling frequency response dynamics in power system scheduling.[J].Ziyang Zhang;Ershun Du;Guiping Zhu;Ning Zhang;Chongqing Kang;Minhui Qian;João P.S. Catalão.Electric Power Systems Research.2020,
[10]  
Modeling Frequency Dynamics in Unit Commitment with a High Share of Renewable Energy.[J].Ziyang Zhang;Ershun Du;Fei Teng;Ning Zhang;Chongqing Kang.IEEE Transactions on Power Systems.2020, 99