肖峻;郝子源;屈玉清;宋晨辉;

• 1:智能电网教育部重点实验室(天津大学)

摘要(Abstract)：

现有需求响应的研究主要针对输电网和配电网分别建立模型,很难最大化所有参与方的整体市场利益,而且还存在输配网需求响应调度重叠问题,为此提出了输配协调的用户需求响应模型。首先,确定包含输、配、聚合商、用户的需求响应调度框架。其次,分别建立正常态和紧急态下的输配协调需求响应模型。在正常态下,基于市场模型最大化输、配、聚合商和用户4类参与方的整体收益,得到优化的用户响应量及各方收益。在紧急态下,建立响应成本最低且考虑用户重要性分级的模型,依据输配网需求响应的优先次序协调调度重叠,充分发挥同一用户响应对输配网分别的作用。最后,针对输配网综合算例,在不同场景下仿真验证了所提出的输配协调需求响应过程。

关键词(KeyWords)： 需求响应;调度重叠;输配协调;市场;优先次序

Abstract:

Keywords:

基金项目(Foundation): 国家重点研发计划项目(2016YFB0900100);; 国家自然科学基金项目(51877144)~~

作者(Author): 肖峻;郝子源;屈玉清;宋晨辉;

Email:

DOI: 10.13335/j.1000-3673.pst.2019.1294

参考文献(References)：

• [1]张钦，王锡凡，付敏，等．需求响应视角下的智能电网[J]．电力系统自动化，2009,33(17):49-55.Zhang Qin,Wang Xifan,Fu Min,et al.Smart grid from the perspective of demand response[J].Automation of Electric Power Systems,2009,33(17):49-55(in Chinese).
• [2]田建伟，胡兆光，周景宏，等．考虑需求方响应资源的智能输电网扩展规划[J]．电力系统自动化，2012,36(10):45-10.Tian Jianwei, Hu Zhaoguang, Zhou Jinghong, et al. Smart transmission grid expansion planning considering demand response resource[J].Automation of Electric Power Systems,2012,36(10):45-10(in Chinese).
• [3]徐青山，丁一帆，郑爱霞．计及需求响应的电网安全优化调度模型[J]．控制与决策，2018,33(3):549-556.Xu Qingshan, Ding Yifan, Zheng Aixia. Safe and optimized scheduling of power system considering demand response[J].Control and Design,2018,33(3):549-556(in Chinese).
• [4]颜伟，吕冰，赵霞，等．计及需求响应影响的配电网可控DG和开关协调规划[J]．电网技术，2014,38(8):2220-2224.Yan Bing,LüBing,Zhao Xia,et al.Coordination allocation of controllable distributed generation and switchers in distribution system considering demand response[J].Power System Technology,2014,38(8):2220-2224(in Chinese).
• [5]金炜，骆晨，徐斌，等．基于需求响应技术的主动配电网优化调度[J]．电力建设，2017,38(3):93-100.Jin Wei,Luo Chen,Xu Bin,et al.Optimal scheduling of active distribution network based on demand response technology[J].Electric Power Construction,2017,38(3):93-100(in Chinese).
• [6]汤奕，鲁针针，伏祥运．居民主动负荷促进分布式电源消纳的需求响应策略[J]．电力系统自动化，2015,39(24):49-55.Tang Yi,Lu Zhenzhen,Fu Xiangyun.Demand response strategies for promoting consumption of distributed power generation with residential active loads[J].Automation of Electric Power Systems,2015,39(24):49-55(in Chinese).
• [7]包庆宇，李扬，王春宁，等．需求响应参与大规模风电接入下的电力系统频率调节研究[J]．电力系统保护与控制，2015,43(4):32-37.Bao Qingyu,Li Yang,Wang Chunning,et al.On demand response participating in the frequency control of the grid under high wind penetration[J].Power System Protection and Control,2015,43(4):32-37(in Chinese).
• [8]陈厚合，何旭，姜涛，等．计及可中断负荷的电力系统可用输电能力研究[J]．电力系统自动化，2017,41(15):81-106.Chen Houhe,He Xu,Jiang Tao,et al.Available transfer capability calculation of power systems considering interruptive load[J].Automation of Electric Power Systems,2017,41(15):81-106(in Chinese).
• [9]武赓，隆竹寒，曾博，等．计及用户行为的需求响应对分布式发电系统充裕度的影响[J]．电力系统自动化，2018,42(8):119-126.Wu Geng,Long Zhuhan,Zeng Bong,et al.Influence of demand response on supply adequacy of distributed generation system considering behaviors of users[J].Automation of Electric Power Systems,2018,42(8):119-126(in Chinese).
• [10]刘育权，吴琼，姜子卿，等．基于需求响应的跨区域互联电力市场输电阻塞管理[J]．南方电网技术，2017,11(2):78-86.Liu Yuquan, Wu Qiong,Jiang Ziqing, et al. Management of transmission congestion of cross-region interconnected electricity market based on demand response[J]. Southern Power System Technology,2017,11(2):78-86(in Chinese).
• [11]鞠立伟，秦超，吴鸿亮，等．计及多类型需求响应的风电消纳随机优化调度模型[J]．电网技术，2015,39(7):1839-1846.Ju Liwei, Qin Chao, Wu Hongliang, et al. Wind power accommodation stochastic optimization model with multi-type demand response[J].Power System Technology,2015,39(7):1839-1846(in Chinese).
• [12]姚建国，杨胜春，王珂，等．平衡风功率波动的需求响应调度框架与策略设计[J]．电力系统自动化，2014,38(9):85-92.Yao Jianguo,Yang Shengchun,Wang Ke,et al.Framework and strategy design of demand response scheduling for balancing wind power flection[J].Automation of Electric Power Systems,2014,38(9):85-92(in Chinese).
• [13]肖峻，李思岑，王丹．计及用户分级与互动的配电网最大供电能力模型[J]．电力系统自动化，2015,39(17):19-25+41.Xiao Jun,Li Sicen,Wang Dan.Composite security assessment of uncertain power system considering interaction and response[J].Automation of Electric Power Systems,2015,39(17):19-25+41(in Chinese).
• [14]郭清元，吴杰康，莫超，等．基于混合整数二阶锥规划的新能源配电网电压无功协同优化模型[J]．中国电机工程学报，2018,38(5):1385-1396.Guo Qingyuan, Wu Jiekang, Mo Chao, et al. A model for multi-objective coordination optimization of voltage and reactive power in distribution networks based on mixed integer second-order cone programming[J].Proceedings of the CSEE,2018,38(5):1385-1396(in Chinese).
• [15] Mohammad R N,Jhi-Young J,Mariesa L C.The effect of demand response on distribution system operation[C]//2015 IEEE Power and Energy Conference at Illinois(PECI).Illinois:IEEE,2015:1-6.
• [16]刘伟佳，吴秋伟，文福栓，等．电动汽车和可控负荷参与配电系统阻塞管理的市场机制[J]．电力系统自动化，2014,38(25):26-33+101.Liu Weijia,Wu Qiuwei,Wen Fushuan,et al.A market mechanism for participation of electric vehicles and dispatchable loads in distribution system congestion management[J]. Automation of Electric Power Systems,2014,38(25):26-33+101(in Chinese).
• [17]苏小林，刘孝杰，阎晓霞，等．计及需求响应的主动配电网短期预测[J]．电力系统自动化，2018,42(10):60-72.Su Xiaolin, Liu Xiaojie, Yan Xiaoxia, et al. Short-term load forecasting of active distribution network based on demand response[J].Automation of Electric Power Systems,2018,42(10):60-72(in Chinese).
• [18]雷敏，魏务卿，曾进辉，等．考虑需求响应的负荷控制对供电可靠性影响分析[J]．电力系统自动化，2018,42(10):53-59.Lei Min,Wei Wuqing,Zeng Jinhui,et al.Influence analysis of load control on power supply reliability considering demand response[J].Automation of Electric Power Systems,2018,42(10):53-59(in Chinese).
• [19]杨丽君，曹玉洁，梁景志，等．基于博弈思想的需求响应视角下的主动配电网故障恢复[J]．电工电能新技术，2018,37(7):51-60.Yang Lijun,Cao Yujie,Liang Jingzhi,et al.Active distribution network fault restoration based on game theory in demand response perspective[J].Advanced Technology of Electrical Engineering and Energy,2018,37(7):51-60(in Chinese).
• [20]江苏省经济和信息化委员会，江苏省物价局．关于印发《江苏省电力需求响应实施细则》的通知[EB/OL].[2019-06-22].http://www.jsdsm.gov.cn/dsmsite/info/1174.jhtml.
• [21]阮文骏，刘莎，李杨．美国需求响应综述[J]．电力需求侧管理，2013,15(2):61-64.Ruan Wenjun,Liu Sha,Li Yang.Overview of demand response in the U.S.A[J].Power Demand Side Management,2013,15(2):61-64(in Chinese).
• [22]闫丽霞，刘东，陈冠宏，等．2017年国际大电网会议都柏林研讨会报道体验未来的电力系统[J]．电力系统自动化，2018,42(11):7-13+148.Yan Lixia,Liu Dong,Chen Guanhong,et al.Review of CIGRE Dublin symposium 2017:experiencing the future power system[J].Automation of Electric Power Systems,2018,42(11):7-13+148(in Chinese).
• [23] Nguyen D T,Negnevitsky M,Groot M D.Pool-based demand response exchange-concept and modeling[J].IEEE Transactions on Power Systems,2011,26(3):1677-1685.
• [24] Medina J,Muller N,Roytelman I.Demand response and distribution grid operations:opportunities and challenges[J].IEEE Transactions on Smart Grid,2010,1(2):193-198.
• [25] Mohammadi A,Mehrtash M,Kargarian A.Diagonal quadratic approximation for decentralized collaborative TSO+DSO optimal power flow[J].IEEE Transactions on Smart Grid,2018,10(3):2358-2370.
• [26]李竹，庞博，李国栋，等．欧洲统一电力市场建设及对中国电力市场模式的启示[J]．电力系统自动化，2017,41(24):2-9.Li Zhu,Pang Bo,Li Guodong,et al.Development of Unified European electricity market and its implications for China[J].Automation of Electric Power Systems,2017,41(24):2-9(in Chinese).
• [27]丁明，李生虎，吴红斌，等．基于充分性和安全性的电力系统运行状态分析和量化评价[J]．中国电机工程学报，2004,24(4):43-49.Ding Ming,Li Shenghu,Wu Hongbin,et al.Analysis of power system operation state based on adequacy and security[J].Proceedings of the CSEE,2004,24(4):43-49(in Chinese).
• [28] Shayesteh E,Yousefi A,Moghaddam M P,et al.ATC enhancement using emergency demand response program[C]//2009 IEEE/PES Power Systems Conference and Exposition.Seattle,USA:IEEE,2009:1-7.
• [29] Kim D M,Kim J O.Design of emergency demand response program using analytic hierarchy process[J].IEEE Transactions on Smart Grid,2012,3(2):635-644.
• [30] Azami R,Abbasi A H,Shakeri J,et al.Impact of EDRP on composite reliability of restructured power systems[C]//2009 IEEE Bucharest Power Tech.Romania:IEEE,2009:1-6.
• [31] Wang Y,Pordanjani I R,Xu W.An event-driven demand response scheme for power system security enhancement[J].IEEE Transactions on Smart Grid,2011,2(1):23-29.
• [32] Uehara T,Matayoshi H,Ludin G A,et al.System frequency control using emergency demand response in power systems with large-scale renewable energy sources[C]//2016 IEEE Region 10 Conference(TENCON).Singapore:IEEE,2016:534-537.
• [33] Zakariazadeh A,Homaee O,Jadid S,et al.A new approach for real time voltage control using demand response in an automated distribution system[J].Applied Energy,2014,117(C):157-166.
• [34] Zhou C,Wang S.Research on EDR pattern and scheduling strategy for commercial buildings[C]//2015 IEEE Advanced Information Technology, Electronic and Automation Control Conference(IAEAC).Chongqing,China:IEEE,2015:377-381.
• [35] Homaee O,Zakariazadeh A,Jadid S.Real time voltage control using emergency demand response in distribution system by integrating advanced metering infrastructure[J]. Journal of Renewable and Sustainable Energy,2014,6(3):033145.
• [36] Kirschen D S,Strbac G.Fundamentals of power system economics[M].New York:John Wiley&Sons,2004:16-18.
• [37] Su C L.Optimal demand-side participation in day-ahead electricity markets[D].Manchester:University of Manchester,2007.
• [38] Parvania M,Fotuhi-Firuzabad M.Demand response scheduling by stochastic SCUC[J].IEEE Transactions on Smart Grid,2010,1(1):89-98.
• [39] Algarni A A S,Bhattacharya K.A generic operations framework for discos in retail electricity markets[J].IEEE Transactions on Power Systems,2009,24(1):356-367.