余佳音,唐坤杰,章杜锡,周飞,董树锋,吴金城
YU Jiayin,TANG Kunjie,ZHANG Duxi,ZHOU Fei,DONG Shufeng,WU Jincheng

• 1:国网浙江省电力有限公司宁波供电公司
• 2:浙江大学电气工程学院

摘要(Abstract)：

随着国家电网公司"大运行"体系建设的深入,省地县一体化态势逐渐形成。省地县一体化的实质就是实现输电网和配电网的一体化管理和调度。针对近年来国内外输配网一体化建模与分析的新方案和新进展,对输配网一体化建模与分析的必要性、输配网一体化建模与分析面临的困难、输配网一体化建模方法、输配网一体化分析方法等四个方面进行综述,并重点就建模方法中的主从分裂模型和区域等值模型以及分析方法中的潮流计算、运行风险评估、优化调度、稳定性分析、高性能计算的应用进行评述,最后结合未来省地县一体化的发展趋势对输配网一体化建模与分析方法的发展进行展望。
With the construction of "large operation" system proposed by State Grid Corporation of China,province-prefecture-county integration trend has gradually formed, the essence of which is the integrated management and dispatch of transmission and distribution networks. According to the new scheme and new progress of modeling and analysis for integrated transmission and distribution network both at home and abroad in recent years, four aspects including necessities of integrated modeling and analysis, difficulties of integrated modeling and analysis, integrated modeling methods and integrated analysis methods are reviewed,especially the modelling methods of master-slave-splitting model and regional equivalent model and analysis methods of power flow calculation, operational risk assessment, optimization scheduling, stability analysis and application of high-performance computation are summarized. Finally, based on the future trend of development of province-prefecture-county integration, the advancement of modelling and analysis methods for integrated transmission and distribution network is forecasted.

关键词(KeyWords)： 输配网一体化;省地县一体化;主从分裂模型;建模与分析;高性能计算
integrated transmission and distribution;province-prefecture-county integration;master-slave-splitting model;modelling and analysis;high-performance computation

Abstract:

Keywords:

基金项目(Foundation): 国网浙江省电力有限公司宁波供电公司群众性创新研究（NB020XT06）

作者(Author): 余佳音,唐坤杰,章杜锡,周飞,董树锋,吴金城
YU Jiayin,TANG Kunjie,ZHANG Duxi,ZHOU Fei,DONG Shufeng,WU Jincheng

DOI: 10.19585/j.zjdl.201911001

参考文献(References)：

• [1]贾黎亮，杨平礼，闫馨予．省地县一体化调度安全保障评估系统的设计及其实现[J]．变频技术应用，2016(5):17-20．
• [2]国内首套省地县一体化调控管理系统通过现场验收[J]．电力系统通信，2011(6):34．
• [3]国内首套省地县一体化调控管理系统在江苏镇江投运[J]．华东电力，2011(9):1532．
• [4]关于全面推进“三集五大”体系建设的意见[N]．国家电网报，2012-01-09(2）.
• [5]廖胜利，刘晓娟，刘本希，等．省地县一体化电力调度管理系统分级用户权限方案[J]．电力系统自动化，2013,37(18):88-92.
• [6]张龙，孙大雁，赵普，等．基于大运行省地县一体化调度运行管理系统的建设[J]．电力信息化，2012,10(5):8-12．
• [7]周遥．省地县一体化电力调度管理系统分级用户权限方案[J]．农村电气化，2016(5):45-46．
• [8]高强，金啸虎，吴利锋．浙江电网省地县一体化集中监控管理体系建设[J]．浙江电力，2015,34(4):57-60．
• [9]孙宏斌，张伯明．全局电力管理系统（GEMS）的新构想[J]．电力自动化设备，2001,21(5):6-8．
• [10]刘涛，米为民，陈郑平，等．适用于大运行体系的电网模型一体化共享方案[J]．电力系统自动化，2015,39(1):36-41．
• [11]许洪强，姚建国，於益军，等．支撑一体化大电网的调度控制系统架构及关键技术[J]．电力系统自动化，2018,42(6):1-8．
• [12]郑宗强，韩冰，闪鑫，等．输配电网高级应用协同运行关键技术分析[J]．电力系统自动化，2017,41(6):122-128．
• [13]SUH J,HWANG S,JANG G.Development of a transmission and distribution integrated monitoring and analysis system for high distributed generation penetration[J].Energies,2017,10(9):1282．
• [14]郭志红，韩学山，李文博，等．适应分布式电源的输配电网协调潮流算法[J]．山东电力技术，2014,41(1):1-6．
• [15]JAIN H,RAHIMI K,TBAILEH A,et al.Integrated transmission&distribution system modeling and analysis:need&advantages[C]//Power and Energy Society General Meeting.New York,USA:IEEE,2016．
• [16]LI Z S,WANG J H,SUN H B,et al.Transmission contingency analysis based on integrated transmission and dis tribution power flow in smart grid[J].IEEE Transactions on Power Systems,2015,30(6):3356-3367．
• [17]孙宏斌，张伯明，相年德．发输配全局潮流计算第一部分：数学模型和基本算法[J]．电网技术，1998,22(12):39-42．
• [18]SUN H B,GUO Q L,ZHANG B M,et al.Master-slavesplitting based distributed global power flow method for integrated transmission and distribution analysis[J].IEEETransactions on Smart Grid,2015,6(3):1484-1492．
• [19]丰颖，贠志皓，孙景文，等．输配协同的配电网态势快速感知方法[J]．电力系统自动化，2016,40(12):37-44．
• [20]HUANG Q H,VITTAL V.Integrated transmission and distribution system power flow and dynamic simulation using mixed three-sequence/three-phase modeling[J].IEEETransactions on Power Systems,2017,32(5):3704-3714．
• [21]李窍盛．输电网与配电网全网一体化仿真研究[D]．北京：北京交通大学，2015.
• [22]MARINHO J M T,TARANTO G N.A hybrid three-phase single-phase power flow formulation[J].IEEE Transactions on Power Systems,2008,23(3):1063-1070．
• [23]JAIN H.Dynamic simulation of power systems using three phase integrated transmission and distribution system models case study comparisons with traditional analysis methods[D].Blacksburg,VA:Virginia Polytechnic Institute and State University,2016．
• [24]JAIN H,PARCHURE A,BROADWATER R P,et al.Three-phase dynamic simulation of power systems using combined transmission and distribution system models[J].IEEE Transactions on Power Systems.2016,31(16):4517-4524．
• [25]孙宏斌，郭烨，张伯明．含环状配电网的输配全局潮流分布式计算[J]．电力系统自动化，2008,32(13):11-15．
• [26]赵晋泉，徐鹏，高宗和，等．基于子网边界等值注入功率的异步迭代分布式潮流算法[J]．电力系统自动化，2010,34(18):11-15．
• [27]张海波，张伯明，孙宏斌．基于异步迭代的多区域互联系统动态潮流分解协调计算[J]．电力系统自动化，2003,27(24):1-5．
• [28]李文博．输配电网潮流与优化的理论研究[D]．济南：山东大学，2013．
• [29]颜伟，何宁．基于ward等值的分布式潮流计算[J]．重庆大学学报（自然科学版），2006,29(11):36-40．
• [30]高明，赵月辉，吴任博，等．基于网络分区的多适配性输配网协同潮流算法研究[J]．电力系统保护与控制，2014,42(23):63-68．
• [31]孙宏斌，张伯明，相年德，等．发输配全局潮流计算第二部分：收敛性、实用算法和算例[J]．电网技术，1999,23(1):50-53．
• [32]陈羽，刘东，廖怀庆，等．网格计算环境下输配电网联合潮流计算[J]．电力系统保护与控制，2012,40(5):42-47．
• [33]鲁跃峰，刘东，蒋利明，等．全电压序列电网规划中的输配电联合潮流计算[J]．华东电力，2010,38(3):345-348．
• [34]SUN H B,ZHANG B M.Distributed power flow calculation for whole networks including transmission and distribution[C]//2008 IEEE/PES Transmission and Distribution Conference and Exposition,New York,USA:IEEE,2008:1-6．
• [35]LI K Q,HAN X S,LI W B,et al.Unified power flow algorithm of transmission and distribution network[C]//2017IEEE 6th International Conference on Renewable Energy Research and Applications.New York,USA:IEEE,2017:257-261．
• [36]贾晓峰，颜伟，周家启，等．复杂电网的分层解耦潮流算法[J]．中国电机工程学报，2010,30(7):56-61．
• [37]LI Z S,WANG J H,SUN H B,et al.Transmission contingency screening considering impacts of distribution Grids[J].IEEE Transactions on Power Systems,2016,31(2):1659-1660.
• [38]LI Z S,GUO Q L,SUN H B,et al.Coordinated economic dispatch of coupled transmission and distribution systems using heterogeneous decomposition[J].IEEE Transactions on Power Systems,2016,31(6):4817-4830．
• [39]LI Z S,GUO Q L,SUN H B,et al.Coordinated economic dispatch of coupled transmission and distribution systems using heterogeneous decomposition[C]//2017 IEEE Power&Energy Society General Meeting.Chicago:IEEE,2017．
• [40]LI Z S,GUO Q L,SUN H B,et al.A New LMP-sensitivity-based heterogeneous decomposition for transmission and distribution coordinated economic dispatch[J].IEEETransactions on Smart Grid,2018,9(2):931-941．
• [41]LIN C H,WU W C,CHEN X,et al.Decentralized dynamic economic dispatch for integrated transmission and active distribution networks using multi-parametric programming[J].IEEE Transactions on Smart Grid,2018,9(5):4983-4993．
• [42]朱泽磊，程鑫，杨桂钟，等．基于母线负荷预测改进的省地协同发电计划优化方法[J]．中国电机工程学报，2017,37(3):665-675．
• [43]LI Z S,GUO Q S,SUN H B,et al.Coordinated transmission and distribution AC optimal power flow[J].IEEE Transactions on Smart Grid,2018,9(2):1228-1240.
• [44]SINGHAL N G,HEDMAN K W.Iterative transmission and distribution optimal power flow framework for enhanced utilisation of distributed resources[J].IET Gener ation,Transmission&Distribution,2015,9(11):1089-1095．
• [45]文云峰，郭创新，郭剑波，等．多区互联电力系统的分散协调风险调度方法[J]．中国电机工程学报，2015,35(14):3724-3733.
• [46]WANG H Y,SONG Y K,HUANG S W,et al.Hybrid transient simulation platform for interconnected transmission and distribution system based on powerfactory and PSASP[J].The Journal of Engineering,2017(13):2053-2056.
• [47]HUANG R K,FAN R,DAILY J,et al.Open-source framework for power system transmission and distribution dynamics co-simulation[J].IET Generation,Transmission&Distribution,2017,11(12):3152-3162．
• [48]ARISTIDOU P,VAN CUTSEM T.A parallel processing approach to dynamic simulations of combined transmission and distribution systems[J].International Journal of Electrical Power&Energy Systems,2015,72:58-65．
• [49]ARISTIDOU P,VAN CUTSEM T.Dynamic simulations of combined transmission and distribution systems using decomposition and localization[C]//2013 IEEE Grenoble Conference,New York,USA:IEEE 2013.
• [50]ARISTIDOU P,VAN CUTSEM T.Dynamic simulations of combined transmission and distribution systems using parallel processing techniques[C]//2014 Power Systems Computation Conference.New York,USA:IEEE,2014:1-7．
• [51]LIU H F,JIN L C,LE D,et al.Impact of high penetration of solar photovoltaic generation on power system small signal stability[C]//2010 International Conference on Power System Technology.New York,USA:IEEE,2010:1-7．
• [52]ZHAO J Q,FAN X,LIN C N,et al.Distributed continuation power flow method for integrated transmission and active distribution network[J].Journal of Modern Power Systems&Clean Energy,2015,3(4):573-582．
• [53]SUN H B,ZHANG B M.Global state estimation for whole transmission and distribution networks[J].Electric Power Systems Research,2005,74(2):187-195.
• [54]SCHMIDT H P,GUARALDO J C,LOPES M D M,et al.Interchangeable Balanced and Unbalanced Network Models for Integrated Analysis of Transmission and Distribution Systems[J].IEEE Transactions on Power Systems,2015,30(5):2747-2754．
• [55]冯永青，李鹏，陈刚,等．基于模型拼接与外网等值的南方电网在线模型协调方法[J]．电力自动化设备，2011,31(7):101-104．
• [56]朱泽磊，罗治强，程鑫，等．基于电网模型等值的省地协同发电计划优化方法[J]．中国电机工程学报，2017,37(15):4333-4343．
• [57]HANSEN J,EDGAR T,DAILY J,et al.Evaluating transactive controls of integrated transmission and distribution systems using the Framework for Network Co-Simulation[C]//2017 American Control Conference.Seattle,USA:IEEE,2017:4010-4017．
• [58]MALEKPOUR A R,ABBASI A R,SEIFI A R.A new coordinated approach to load shedding in integrated transmission and distribution systems[J].International Review of Electrical Engineering,2010,5(3):1172-1182.
• [59]KALSI K,FULLER J C,TUFFNER F K,et al.Integrated transmission and distribution control[J].Office of Scientific&Technical Information Technical Reports,2013(1):69．
• [60]HASSAN A,DVORKIN Y.Energy storage siting and sizing in coordinated distribution and transmission systems[J].IEEE Transactions on Sustainable Energy,2018,9(4):1692-1701．
• [61]段刚，余贻鑫．输配电系统综合规划的全局优化算法[J]．中国电机工程学报，2002,22(4):109-113．
• [62]江道灼，郑欢．直流配电网研究现状与展望[J]．电力系统自动化，2012,36(8):98-104．
• [63]STARKE M,LI F X,TOLBERT L M,et al.AC vs.DC distribution:Maximum transfer capability[C]//2008 IEEE Power and Energy Society General Meeting-Conversion and Delivery of Electrical Energy in the 21st Century.Pittsburgh:IEEE,2008:1-6．
• [64]STARKE M,TOLBERT L M,OZPINECI B.AC vs.DC distribution:A loss comparison[C]//2008 IEEE/PES Transmission and Distribution Conference and Exposition,Chicago:IEEE,2008:1-7．
• [65]DASTGEER F,KALAM A.Efficiency comparison of DCand AC distribution systems for distributed generation[C]//Power Engineering Conference,Australasian Universi ties.[S.l.]:IEEE,2009:1-5．
• [66]宋强，赵彪，刘文华，等．智能直流配电网研究综述[J]．中国电机工程学报，2013,33(25):9-19．
• [67]于明.含分布式电源的直流配电网协调控制研究[D].北京：华北电力大学，2017.