Operation System of Active Distribution System Considerring Active Demand and Sale Market

doi:10.11930/j.issn.1004-9649.2017.07.019.09

Abstract

Abstract: With the increase of demand response resources and the introduction of bilateral interaction in the power sale market, the active distribution system and corresponding operation framework is required. Based on the analysis of characteristics of various generalized demand response resources, and with combination of the future power sale market features such as pluralistic players and diversified modes, the aggregation agent of consumer resources is proposed to integrate the demand response ability within user agent areas, and to respond to the operation and scheduling demand of distribution network. A three-layer architecture and operation organization system is developed of active distribution system consisting of power sale companies, aggregation agents and response consumers, which is suitable for smart grid construction and power market development requirements. And the function, profit model and synergetic mechanism of main entities in the system are analyzed and designed.

Key words: generalized demand response resources, active response, power sale market, active distribution system, operation framework

CLC Number:

TM715

LIU Xiaojie, SU Xiaolin, YAN Xiaoxia, WU Fujie, ZHANG Chao. Operation System of Active Distribution System Considerring Active Demand and Sale Market[J]. Electric Power, 2017, 50(7): 19-27.

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URL: https://www.electricpower.com.cn/EN/10.11930/j.issn.1004-9649.2017.07.019.09

https://www.electricpower.com.cn/EN/Y2017/V50/I7/19

References

[1] 赵岩,胡学浩. 分布式发电对配电网电压暂降的影响[J]. 电网技术,2008,32（14）：5-9,18.
ZHAO Yan, HU Xuehao. Impacts of distributed generation on distribution system voltage sags [J]. Power System Technology, 2008, 32(14): 5-9, 18.
[2] 陈炽野,文亚凤,刘自发,等. 含有多种分布式电源的配电网综合评估方法[J]. 电力建设,2015,36（1）：128-135.
CHEN Chiye, WEN Yafeng, LIU Zifa. et al . Comprehensive evaluation method of distribution network including various types of distributed generation [J]. Electric Power Construction, 2015, 36(1): 128-135.
[3] 中共中央国务院. 关于进一步深化电力体制改革的若干意见（中发〔2015〕9号）文[Z/OL]. [2015-04-27]. http//www.ne21.com/news/show-64828.html.
[4] 马钊,梁惠施,苏剑. 主动配电系统规划和运行中的重要问题[J]. 电网技术,2015,39（6）：1499-1503.
MA Zhao, LIANG Huishi, SU Jian. Important issues in planning and operation of active distribution system [J]. Power System Technology, 2015, 39(6): 1499-1503.
[5] MARTINS V F, BORGES C L T. Active distribution network integrated planning incorporating distributed generation and load response uncertainties [J]. IEEE Trans on Power Systems, 2011, 26(4): 2164-2172.
[6] 钟清,张文峰,周佳威,等. 主动配电网分层分布控制策略及实现[J]. 电网技术,2015,39（6）：1511-1517.
ZHONG Qing, ZHANG Wenfeng, ZHOU Jiawei, et al . Hierarchical and distributed control strategy for active distribution network & its implementation [J]. Power System Technology, 2015, 39(6): 1511-1517.
[7] 于汀,刘广一,蒲天骄,等. 计及柔性负荷的主动配电网多源协调优化控制[J]. 电力系统自动化, 2015,39（9）：95-100.
YU Ting, LIU Guang, PU Tianjiao, et al . Multiple coordinated optimization control of active distribution network considering flexible load [J]. Automation of Electric Power Systems, 2015, 39(9): 95-100.
[8] KARGARIAN M A. Optimal operation of active distribution grids: a system of systems framework [J]. IEEE Trans on Smart Grid, 2014, 5(3): 1228-1237.
[9] CHA T S, WU Q, STERGAARD J, et al . Multi-agent based controller for islanding operation of active distribution networks with distributed generation (DG) [C]// 2011 4th International Conference on Electric Utility Deregulation and Restructuring and Power Technologies(DRPT), 2011: 803-810.
[10] 艾欣,陈炜. 考虑容量管理的主动配电网市场化实时竞价运营模式[J]. 中国电机工程学报,2014,34（22）：3743-3749.
AI Xin, CHEN Wei. Marketization real-time bidding operation mode of the active distribution network with consideration of capacity management [J]. Proceedings of The CSEE, 2014, 34（22）：3743-3749.
[11] OLEINIKOVA I, OBUSHEVS A. Market design for electricity ensuring operational flexibility [C]// 2015 IEEE 5th International Conference on Power Engineering, Energy and Electrical Drives (POWERENG), 2015: 239-243.
[12] SANDOVAL M, GRIJALVA S. Future grid business model innovation: a prosumer-based cost-benefit framework for valuation of distributed energy resources[C]// Innovative Smart Grid Technologies Latin America (ISGT LATAM), 2015 IEEE PES, 2015：450-455.
[13] BELHOMME R, DE ASUA R C R, VALTORTA G, et al . Address-active demand for the smart grids of the future [J]. CIRED Seminar 2008: Smart Grids for Distribution, 2008: No. 0080.
[14] PEETERS E, SIX D, HOMMELBERG M, et al . The ADDRESS Project: an architecture and markets to enable active demand [C]// Energy Market, 2009. EEM 2009. International Conference on the European. 2009: 1-5.
[15] BELHOMME R, CERERO R, VALTORTA G, et al . The address project: developing active demand in smart power systems integrating renewables[C]// Proc. IEEE/PES General Meeting, 2011: 1-8.
[16] JIMENO J, RUIZ N, TRYFERIDIS T, et al . Framework for the integration of active tertiary prosumers into asmart distribution grid [C]// 2015 IEEE 5th International Conference on Power Engineering, Energy and Electrical Drives(POWERENG), 2015: 257-262.
[17] LANNEZ S, FOGGIA G, MUSCHOLL M, et al . Nice grid: Smart grid pilot demonstrating innovative distribution network operation[J]. 2013 IEEE Grenoble Conference, 2013: 1-5.
[18] 曾鸣,周健,于滢,等. 国外电力改革对我国电力零售市场建设的启示[J]. 改革与战略,2009,25（4）：179-182.
ZENG Ming, ZHOU Jian, YU Ying. et al . Experience from the reform of foreign electric power: a good reference for the funding of retail electricity market[J]. Reformation&Strategy, 2009, 25（4）: 179-182.
[19] 王冬利. 电力需求侧管理实用技术[M]. 北京：中国电力出版社,2005.
[20] 邢龙,张沛超,方陈,等. 基于广义需求侧资源的微网运行优化[J]. 电力系统自动化,2013,37（12）：7-12,133.
XING Long, ZHANG Peichao, FANG Chen, et al . Optimal operation for microgrid using generalized demand side resources [J]. Automation of Electric Power Systems, 2013, 37(12): 7-12,133.
[21] 李童佳,张晶,祁兵. 居民用户需求响应业务模型研究[J]. 电网技术,2015,39（10）：2719-2724.
LI Tongjia, ZHANG Jing, QI Bing. Studies on Business Model of Demand Response for Residential Users[J]. Power System Technology, 2015, 39(10): 2719-2724.
[22] 刘敦楠,曾鸣,黄仁乐,等. 能源互联网的商业模式与市场机制（二）[J]. 电网技术,2015,39（11）：3057-3063.
LIU Dunnan, ZENG Ming, HUANG Renle, et al . Business models and market mechanisms of energy internet(II) [J]. Power System Technology, 2015, 39(11): 3057-3063.
[23] 袁越,李振杰,冯宇,等. 中国发展微网的目的、方向、前景[J]. 电力系统自动化,2010,34（1）：59-63.
YUAN Yue, LI Zhenjie, FENG Yu, et al . Development purposes, orientations and prospects of microgrid in china [J]. Automation of Electric Power Systems, 2010, 34(1): 59-63.
[24] PAOLETTI S, GARULLI A, VICINO A. Electric load forecasting in the presence of active demand [C]// 2012 51st IEEE Conference on Decision and Control (CDC), 2012: 2395-2400.
[25] 杨胜春,汤必强,姚建国,等. 基于态势感知的电网自动智能调度架构及关键技术[J]. 电网技术,2014,38（1）：3635-3641.
YANG Shengchun, TANG Biqiang, YAO Jianguo, et al . Architecture and key technologies for situational awareness based automatic intelligent dispatching of power grid [J]. Power System Technology, 2014, 38(1): 3635-3641.