2025年4月2日 周三
首页 > 过刊浏览>2024年第39卷第4期 >112-120. DOI:10.19781/j.issn.1673-9140.2024.04.013
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采用改进量子粒子群优化算法的虚拟电厂参与二次调频两阶段优化
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作者:
作者单位:

(1.国网上海市电力公司,上海 200122;2.华北电力大学电气与电子工程学院, 北京 102208;3.北京中泰华电科技有限公司,北京 102208;4.上海电巴新能源科技有限公司,上海,210000)

通讯作者:

朱靖恺(1975—),男,高级工程师,主要从事配电网优化运行方面等研究;E?mail:2263604536@qq.com

中图分类号:

TM73

基金项目:

国家自然科学基金(52207102);国网上海市电力公司科技项目(52094022004Q)


Two‑stage optimization of virtual power plant participating in secondary frequency regulation using improved quantum particle swarm optimization algorithm
Author:
Affiliation:

(1.State Grid Shanghai Electric Power Company,Shanghai 200122,China;2.School of Electrical Engineering,North China Electric Power University,Beijing 102208, China;3.Beijing Zhongtaihuadian Technology Co.,Ltd.,Beijing 102208, China;4.Shanghai Dianba New Energy Technology Co.,Ltd.,Shanghai 210000, China)

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    摘要:

    虚拟电厂(virtual power plant,VPP)作为一种新型区域能源管理系统,可通过“源—荷—储”的协调优化调度,高效参与电网二次调频辅助服务。介绍虚拟电厂内部结构,建模分析新能源机组及可控负荷特性;搭建虚拟电厂参与二次调频两阶段调度模型,该模型能够兼顾二次调频净利润及调频效果;研究一种自适应权重的改进量子粒子群优化(quantum particle swarm optimization,QPSO)算法,通过引入自适应权重机制,在量子粒子更新过程中动态调整权重参数以提高算法的搜索能力和收敛速度;并将改进算法应用于两阶段优化过程中,使虚拟电厂获得更高的二次调频净利润及更好的调频效果;仿真结果表明,所提改进算法的收敛速度更快且全局寻优能力更强。

    Abstract:

    As a new type of regional energy management system, the virtual power plant (VPP) can efficiently participate in the secondary frequency regulation auxiliary services of the power grid through the coordinated optimal scheduling of "source-load-storage". This paper introduces the internal structure of the VPP, and models and analyzes the characteristics of new energy units and controllable loads. A two-stage scheduling model for the VPP participating in secondary frequency regulation is established, which can balance the net profit and frequency regulation effect of secondary frequency regulation. An improved quantum particle swarm optimization (QPSO) algorithm with adaptive weights is studied. By introducing an adaptive weighting mechanism, the weight parameters are dynamically adjusted during the quantum particle update process to improve the search ability and convergence speed of the algorithm. The improved algorithm is applied to the two-stage optimization process, enabling the VPP to achieve higher net profits from secondary frequency regulation and better frequency regulation effects. Simulation results demonstrate that the proposed improved algorithm has a faster convergence speed and stronger global optimization ability.

    参考文献
    [1] 王雪.新型电力系统建设面临的挑战及应对措施[J].农村电工,2022,30(8):41. WANG Xue.Challenges and countermeasures of new power system construction[J].Rural Electrician,2022,30(8):41.
    [2] 杨海晶,饶宇飞,李朝晖,等.基于随机模拟和EMD的含风光电力系统AGC调频储能定容[J].电力科学与技术学报,2022,37(5):58-65+99. YANG Haijing,RAO Yufei,LI Zhaohui,et al.Based on stochastic simulation and EMD,AGC frequency modulation energy storage constant capacity of wind power system[J].Journal of Electric Power Science and Technology,2022,37(5):58-65+99.
    [3] 罗海荣,张庆平,徐帆,等.用于火电机组二次调频的混合储能系统容量配置优化方法[J].宁夏电力,2022(5):50-57. LUO Hairong,ZHANG Qingping,XU Fan,et al.Capacity configuration optimization method of hybrid energy storage system for secondary frequency regulation of thermal power unit[J].Ningxia Electric Power,2022(5):50-57.
    [4] 赵昊天,王彬,潘昭光,等.支撑云—群—端协同调度的多能园区虚拟电厂:研发与应用[J].电力系统自动化,2021,45(5):111-121. ZHAO Haotian,WANG Bin,PAN Zhaoguang,,et al.Multi-energy park virtual power plant supporting cloud-group-terminal collaborative dispatching:research and development and application[J].Automation of Electric Power Systems,2021,45(5):111-121.
    [5] 康重庆,陈启鑫,苏剑,等.新型电力系统规模化灵活资源虚拟电厂科学问题与研究框架[J].电力系统自动化,2022,46(18):3-14. KANG Chongqing,CHEN Qixin,SU Jian,et al.Scientific problems and research framework of virtual power plant with enormous flexible distributed energy resources in new power system[J].Automation of Electric Power Systems,2022,46(18):3-14.
    [6] 贾德香,柳占杰,高骞,等.计及碳—电一体化交易的虚拟电厂竞价策略[J].电力科学与技术学报,2021,36(2):89-97. JIA Dexiang,LIU Zhanjie,GAO Qian,et al.Bidding strategy of virtual power plant considering carbon-electricity integration trading[J].Journal of Electric Power Science and Technology,2021,36(2):89-97.
    [7] 李嘉媚,艾芊,殷爽睿.虚拟电厂参与调峰调频服务的市场机制与国外经验借鉴[J].中国电机工程学报,2022,42(1):37-56. LI Jiamei,AI Qian,YIN Shuangrui.The market mechanism and foreign experience of virtual power plants participating in peak regulation and frequency regulation services[J].Proceedings of the CSEE,2022,42(1):37-56.
    [8] 祖文静,杜易达,李鹏,等.计及不确定性与相关性的虚拟电厂参与主辅市场联合交易优化研究[J].智慧电力,2022,50(10):70-77+86. ZU Wenjing,DU Yida,LI Peng,et al.Optimization of virtual power plant participating in joint trading in main and auxiliary markets considering uncertainty and correlation[J].Smart Power,2022,50(10):70-77+86.
    [9] CHEN W,QIU J,ZHAO J,et al.Bargaining game-based profit allocation of virtual power plant in frequency regulation market considering battery cycle life[J].IEEE Transactions on Smart Grid,2021,12(4):2913-2928.
    [10] 黎靖邦.虚拟电厂建模及其参与调频市场关键技术研究[D].南京:东南大学,2020. LI Jingbang.Modeling of virtual power plants and research on key technologies involved in the frequency regulation market[D].Nanjing:Southeast University,2020.
    [11] 湛归,殷爽睿,艾芊,等.智能楼宇型虚拟电厂参与电力系统调频辅助服务策略[J].电力工程技术,2022,41(6):13-20+57. ZHAN Gui,YIN Shuangrui,AI Qian,et al.The strategy of intelligent building-type virtual power plants participating in power system frequency regulation auxiliary services[J].Electric Power Engineering Technology,2022,41(6):13-20+57.
    [12] LUO K,CHEN H,LAI X,et al.Method development for electric vehicle-based virtual power plant to provide secondary frequency control[C]//IEEE/IAS Industrial and Commercial Power System Asia (I&CPS Asia),Chengdu,China,2021.
    [13] 李孟阳,李国杰,汪可友,等.考虑需求响应及调频性能变化的虚拟电厂日前投标策略[J].电力系统保护与控制,2023,51(3):13-25. LI Mengyang,LI Guojie,WANG Keyou,et al.A day-ahead bidding strategy for virtual power plants considering demand response and frequency regulation performance changes[J].Power System Protection and Control,2023,51(3):13-25.
    [14] 段康康,王维庆,杨帆.基于TVF-EMD的虚拟电厂参与系统调频容量优化配置[J].现代电子技术,2023,46(5):180-186. DUAN Kangkang,WANG Weiqing,YANG Fan.Optimal configuration of frequency regulation capacity of virtual power plant participating in the system based on TVF-EMD[J].Modern Electronic Technology,2023,46(5):180-186.
    [15] 袁桂丽,苏伟芳.计及电动汽车不确定性的虚拟电厂参与AGC调频服务研究[J].电网技术,2020,44(7):2538-2548. YUAN Guili,SU Weifang.Virtual power plants providing AGC FM service considering uncertainty of electric vehicles[J].Power System Technology,2020,44(7):2538-2548.
    [16] 韩志永,张宇华,李兵.基于多场景技术的冷热电虚拟电厂两阶段优化调度[J].电测与仪表,2022,59(3):174-180. HAN Zhiyong,ZHANG Yuhua,LI Bing.Two-stage optimal dispatching of CCHP virtual power plant based on multi- scenario technology[J].Electrical Measurement & Instrumentation,2022,59(3):174-180.
    [17] 闫鹏,曾四鸣,李铁成,等.基于改进量子遗传算法的虚拟电厂在多时间尺度下参与AGC优化调度[J].电网与清洁能源,2023,39(3):23-32. YAN Peng,ZENG Siming,LI Tiecheng,et al.Optimal scheduling of virtual power plant participating in AGC based on improved quantum genetic algorithm on multi-time scale[J].Power System and Clean Energy,2023,39(3):23-32.
    [18] 王翔,胡明,闫岩,等.基于改进量子粒子群算法的综合能源系统优化配置[J].综合智慧能源,2022,44(10):19-24. WANG Xiang,HU Ming,YAN Yan,et al.Optimal configuration of integrated energy system based on improved quantum particle swarm optimization[J].Integrated Intelligent Energy,2022,44(10):19-24.
    [19] 张大海,贠韫韵,王小君,等.计及风光不确定性的新能源虚拟电厂多时间尺度优化调度[J].太阳能学报,2022,43(11):529-537. ZHANG Dahai,YUN Yunyun,WANG Xiaojun,et al.Multi-time scale of new energy scheduling optimization for virtual power plant considering uncertainty of wind power and photovoltaic power[J].Acta Energiae Solaris Sinica,2022,43(11):529-537.
    [20] 郭佳兴,王金梅,张海同.基于虚拟电厂的多能源协同系统调度优化策略[J].电力建设,2022,43(12):141-151. GUO Jiaxing,WANG Jinmei,ZHANG Haitong.Scheduling optimization strategy based on virtual power plant for multi-energy collaborative system[J].Electric Power Construction, 2022,43(12): 141-151.
    [21] 刘蓉晖,李阳,杨秀,等.考虑需求响应的社区综合能源系统两阶段优化调度[J].太阳能学报,2021,42(9):46-54. LIU Ronghui,LI Yang,YANG Xiu,et al.Two-stage optimal scheduling of community integrated energy system considering demand response[J].Acta Energiae Solaris Sinica,2021,42(9):46-54.
    [22] 苏伟芳.基于虚拟电厂的电力市场辅助服务研究[D].北京:华北电力大学,2020. SU Weifang.Research on power market auxiliary services based on virtual power plant[D].Beijing:North China Electric Power University,2020.
    [23] 南方能源监管局.南方区域电力并网运行管理实施细则[EB/OL].https://news.bjx.com.cn/html/20220615/1233271.shtml,2022-06-13. Southern Energy Regulatory Authority.Implementation rules forgrid-connected operation and management of electric power in the southern region[EB/OL].https://news.bjx.com.cn/html/20220615/1233271.shtml,2022-06-13.
    [24] 潘欢,杨丽,胡钢墩.基于改进量子粒子群算法的配电网络优化重构[J].电测与仪表,2018,55(18):31-36+49. PAN Huan,YANG Li,HU Gangdun.Distribution network optimal reconfiguration based on improved quantum particle swarm optimization algorithm[J].Electrical Measurement & Instrumentation,2018,55(18):31-36+49.
    [25] 李博通,刘涛,杨昕陆,等.故障自清除型直流配电网新型双极短路故障元件识别方法[J].电工技术学报,2022,37(17):4423-4434. LI Botong,LIU Tao,YANG Xinlu,et al.New fault element identification method of bipolar short-circuit fault in DC distribution network with fault self-clearing[J].Transactions of China Electrotechnical Society,2022,37(17):4423-4434.
    [26] 马喜平,杨燕静,沈渭程,等.基于改进量子粒子群算法的微能源网优化运行[J].电网与清洁能源,2022,38(7):47-53. MA Xiping,YANG Yanjing,SHEN Weicheng,et al.Optimized operation of micro energy grid based on improved quantum particle swarm optimization (IQPSO) algorithm[J].Power System and Clean Energy,2022,38 (7):47-53.
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朱靖恺,崔 勇,杜 洋,等.采用改进量子粒子群优化算法的虚拟电厂参与二次调频两阶段优化[J].电力科学与技术学报,2024,39(4):112-120.
ZHU Jingkai, CUI Yong, DU Yang, et al. Two‑stage optimization of virtual power plant participating in secondary frequency regulation using improved quantum particle swarm optimization algorithm[J]. Journal of Electric Power Science and Technology,2024,39(4):112-120.

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