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电工技术学报 2014

主动配电网规划关键问题与研究展望

, PP. 13-23

张建华,曾博,张玉莹,刘大川,杨煦,李晨,刘文霞

Keywords: 主动配电网了,低碳经济,可再生能源,优化规划方法,主动网络管理

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Abstract:

面对资源环境压力与节能减排的双重压力,电力工业亟待低碳转型。主动配电网（ADN）有机整合先进信息通信、电力电子及智能控制等技术,为实现分布式可再生能源大规模并网与高效利用提供了一种有效解决方案,对支撑低碳经济发展具有重要战略意义。本文首先简要介绍了ADN的技术特点及内涵理念；其次,结合国内外相关示范工程,阐述了ADN的技术可行性及其低碳潜力；在此基础上,重点对ADN规划问题进行探讨通过与传统配电网及微电网技术进行对比,提出了ADN规划一般性框架；基于国内外研究现状,从电力负荷预测、规划资源特性、集成设计模式、优化规划方法及成本效益分析等5个方面提出了该领域的关键问题和未来主要研究方向,并深入分析了其中的研究难点；最后,对研究思路及技术路线提出了相关建议。

References

[1]	DARA, Climate Vulnerability Monitor[EB/OL]. 2nd Edition http://www.daraint.org/wp-content/uploads/
[2]	2012/10/CVM2-Low.pdf., 2013-11-5.
[3]	Secretary of State for Trade and Industry, Great Britain. Our Energy Future: Creating a Low-carbon Economy [EB/OL]. www.ukccsrc.ac.uk/system/files/ 03660.pdf, 2013-11-15.
[4]	国务院发展改革委员会. 中国应对气候变化国家方案[EB/OL]. http://www.ccchina.gov.cn/WebSite/ CCChina/UpFile/File189.pdf, 2013-12-10.
[5]	IEA. CO2 Emissions From Fuel Combustion [EB/OL]. http://www.iea.org/publications/freepublications/ publication/CO2EmissionsFromFuelCombustionHighlights2013.pdf. 2013-10-26.
[6]	丁然, 康重庆, 周天睿, 等. 低碳电网的技术途径分析与展望[J]. 电网技术, 2011,35(10):1-8. Ding Ran, Kang Chongqing, Zhou Tianrui, et al. Analysis and prospect on technical approaches for low carbon power grid[J]. Power System Technology. 2011, 35(10): 1-8.
[7]	Labis P E, Visande R G, Pallugna R C, et al. The contribution of renewable distributed generation in mitigating carbon dioxide emissions[J]. Renewable and Sustainable Energy Reviews, 2011, 15(9): 4891-4896.
[8]	王成山, 李鹏. 分布式发电, 微网与智能配电网的发展与挑战[J]. 电力系统自动化, 2010, 34(2): 10-14. Wang Chengshan, Li Peng. Development and challenges of distributed generation, the micro-grid and smart distribution system[J]. Automation of Electric Power Systems, 2010, 34(2): 10-14.
[9]	Walling R A, Saint R, Dugan R C, et al. Summary of distributed resources impact on power delivery systems[J]. IEEE Transactions on Power Delivery, 2008, 23(3): 1636-1644.
[10]	Celli G, Ghiani E, Mocci S, et al. From passive to active distribution networks: methods and models for planning network transition and development[C]. 42nd International Conference on Large High Voltage Electric Systems 2008, CIGRE 2008, Paris, France, 2008: 1-11
[11]	尤毅, 刘东, 于文鹏, 等. 主动配电网技术及其进展[J]. 电力系统自动化, 2012, 36(18): 10-16.
[12]	You Yi, Liu Dong, Yu Wenpeng, et al. Technology and its trends of active distribution network[J]. Automation of Electric Power Systems, 2012, 36(18): 10-16.
[13]	范明天, 张祖平, 苏傲雪, 等. 主动配电系统可行技术的研究[J]. 中国电机工程学报, 2013, 33(22): 12-18.
[14]	Fan Mingtian, Zhang Zuping, Su Aoxue, et al. Enabling technologies for active distribution systems[J]. Proceedings of the CSEE, 2013, 33(22): 12-18.
[15]	CIGRE Task Force C6.11, Development and operation of active distribution networks[R], 2011.
[16]	Fan M, Zhang Z, Tian T. The analysis of the information needed for the planning of active distribution system[C]. IET 22nd International Conference and Exhibition on Electricity Distribution, (CIRED), 2013: 1-4.
[17]	孔涛, 程浩忠, 李钢, 等. 配电网规划研究综述[J]. 电网技术, 2009, 33 (19): 92-99.
[18]	Kong Tao, Cheng Haozhong, Li Gang, et al. Review of power distribution network planning[J]. Power System Technology, 2009, 33 (19): 92-99.
[19]	朱坚强, 程浩忠, 武鹏, 等. 环保要求下城市送电网规划的初步方法[J]. 电力系统自动化, 2009, 33(16): 30-34.
[20]	Zhu Jianqiang, Cheng Haozhong, Wu Peng, et al. A preliminary method for urban transmission network planning required by environmental protection[J]. Automation of Electric Power Systems, 2009, 33(16): 30-34.
[21]	张勇军, 石辉. 基于灰关联加权的配电网紧凑型节能改造投资规划[J]. 电力系统自动化, 2010, 34(22): 46-50.
[22]	Zhang Yongjun, Shi Hui. Distribution network energy-saving investment compact planning based on grey connectedness weighting[J]. Automation of Electric Power Systems, 2010, 34(22): 46-50.
[23]	徐林, 阮新波, 张步涵, 等. 风光蓄互补发电系统容量的改进优化配置方法[J]. 中国电机工程学报, 2012, 32(25):88-98.
[24]	Xu Lin, RuanXinbo, Zhang Buhan, et al. An improved optimal sizing method for wind-solar-battery hybrid power system[J]. Proceedings of the CSEE,2012, 32(25):88-98.
[25]	Hafez O, Bhattacharya K. Optimal planning and design of a renewable energy based supply system for microgrids[J]. Renewable Energy, 2012, 45:7-15.
[26]	缪源诚, 程浩忠, 龚小雪, 等. 含微网的配电网接线模式探讨[J]. 中国电机工程学报, 2012, 32(1): 17-23.
[27]	Miao Yuancheng, Cheng Haozhong, Gong Xiaoxue, et al. Evaluation of a distribution network connection mode considering micro-grid[J]. Proceedings of the CSEE, 2012, 32(1): 17-23.
[28]	王兆宇, 艾芊. 智能配电网中微电网的多目标优化配置[J]. 电网技术, 2012, 36(8): 199-203.
[29]	Wang Zhaoyu, Ai Qian. Multi-objective allocation of microgrid in smart distribution network[J]. Power System Technology, 2012, 36(8): 199-203.
[30]	Zhou Q, Guan W, Sun W. Impact of demand response contracts on load forecasting in a smart grid environment[C]. IEEE Power & Energy Society General Meeting, San Diego, USA, 2012: 1-4.
[31]	Arias J L C, Westermann D. Load forecasting scheme based on energy efficiency for planning the expansion of electrical systems[C]. IEEE Bucharest Power Tech, Bucharest, Romania, 2009: 1-8.
[32]	Paoletti S, Casini M, Giannitrapani A, et al. Load forecasting for active distribution networks[C]. 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies, Manchester, UK, 2011: 1-6.
[33]	Aghaei J, Alizadeh M I. Demand response in smart electricity grids equipped with renewable energy sources: A review[J]. Renewable and Sustainable Energy Reviews, 2013, 18: 64-72.
[34]	Roscoe A J, Ault G. Supporting high penetrations of renewable generation via implementation of real-time electricity pricing and demand response[J]. IET Renewable Power Generation, 2010, 4(4): 369-382.
[35]	田建伟, 胡兆光, 周景宏, 等. 电网—用户互操作性对负荷曲线影响的定量模拟[J]. 电力系统自动化, 2011,35(13):44-48.
[36]	TianJianwei, Hu Zhaoguang, Zhou Jinghong, et al. Quantitative simulation of grid-consumer interoperability on load curve[J]. Automation of Electric Power Systems, 2011, 35(13):44-48.
[37]	Corradi O, Ochsenfeld H, Madsen H, et al. Controlling electricity consumption by forecasting its response to varying prices[J]. IEEE Transactions on Power Systems, 2013, 28(1): 421-429.
[38]	刘继东, 韩学山, 韩伟吉, 等. 分时电价下用户响应行为的模型与算法[J]. 电网技术, 2013, 37 (10): 2973-2978.
[39]	Liu Jidong, Han Xueshan, Han Weiji, et al. Model and algorithm of customers’ responsive behavior under time-of-use price[J]. Power System Technology, 2013, 37 (10): 2973-2978.
[40]	姚珺玉, 刘俊勇, 刘友波, 等. 计及时滞指标综合灵敏度的用户电价响应模式划分方法[J]. 电网技术, 2010 (4): 30-36.
[41]	Yao Junyu, Liu Junyong, Liu Youbo, et al. An approach to divide customer price response modes taking comprehensive sensitivity of the time delay index into account[J]. Power System Technology, 2010 (4): 30-36.
[42]	York D, Kushler M. Exploring the relationship between demand response and energy efficiency [R/OL], http://www.aceee.org/research-report/u052, 2005.
[43]	Alvarez-Herault M C, Picault D, Caire R, et al. A novel hybrid network architecture to increase DG insertion in electrical distribution systems[J]. IEEE Transactions on Power Systems, 2011, 26(2): 905-914.
[44]	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. Song Qiang, Zhao Biao, Liu Wenhua, et al. An overview of research on smart DC distribution power network[J]. Proceedings of the CSEE, 2013, 33(25): 9-19.
[45]	黄盛. 智能配电网通信业务需求分析及技术方案[J]. 电力系统通信, 2010, 31(22): 10-12.
[46]	Huang Sheng. Analysis on the demand for communication services in smart distribution network and communication technical scheme[J]. Telecom- munication for Electric Power System, 2010, 31(22): 10-12.
[47]	Favuzza S, Graditi G, Ippolito M G, et al. Transition of a distribution system towards an active network. Part I: preliminary design and scenario perspectives[C]. IEEE International Conference on Clean Electrical Power, Ischia, 2011: 9-14.
[48]	Cosentino V, Favuzza S, Graditi G, et al. Transition of a distribution system towards an active network. Part II: economical analysis of selected scenario[C]. International Conference on Clean Electrical Power. Ischia: IEEE, 2011: 15-20.
[49]	Martins V F, Borges C L T. Active distribution network integrated planning incorporating distributed generation and load response uncertainties[J]. IEEE Transactions on Power Systems, 2011, 26(4): 2164-2172.
[50]	Borges C L T, Martins V F. Multistage expansion planning for active distribution networks under demand and distributed generation uncertainties[J]. International Journal of Electrical Power & Energy Systems, 2012, 36(1):107-116.
[51]	Fan M, Su A, Zhang Z. A planning approach for active distribution networks[C]. 21st International Conference on Electricity Distribution, Frankfurt, Germany, 2011: 1-4.
[52]	Al Kaabi S S, Zeineldin H H, Khadkikar V. Planning active distribution networks considering multi-DG configurations[J]. IEEE Transactions on Power Systems, 2014, 99: 1-9.
[53]	Capuder T, Zidar M, Škrlec D. Evolutionary algorithm with fuzzy numbers for planning active distribution network[J]. Electrical Engineering, 2012, 94(3): 135-145.
[54]	Li Y, Zio E. Uncertainty analysis of the adequacy assessment model of a distributed generation system[J]. Renewable Energy, 2012, 41: 235-244.
[55]	王彬, 何光宇, 梅生伟, 等. 智能电网评估指标体系的构建方法[J]. 电力系统自动化, 2011, 35(23): 1-5.
[56]	Wang Bin, He Guangyu, Mei Shengwei, et al. Construction method of smart grid’s assessment index system[J]. Automation of Electric Power Systems, 2011, 35(23): 1-5.
[57]	王彬, 何光宇, 陈颖, 等. 智能电网评估指标体系中电力用户需求指标集的构建[J]. 电网技术, 2012, 36(6): 21-26.
[58]	Wang Bin, He Guangyu, Chen Ying, et al. Construction of power consumers’ demand index set in assessment index system of smart grid[J]. Power System Technology, 2012, 36(6): 21-26.
[59]	Fan M, Liang H, Zhang Z, et al. Cost-benefit analysis of integration DER into distribution network[C]. CIRED 2012 Workshop: Integration of Renewables into the Distribution Grid, Lisbon, Portugal, 2012: 1-4.
[60]	张建华, 曾博, 董军, 等. 环境友好型城网规划双层决策模型及其协调局势算法[J]. 中国电机工程学报, 2012, 32(10):56-64.
[61]	Celli G, Pilo F, Soma G G, et al. Active distribution network cost/benefit analysis with multi-objective programming[C].20th International Conference and Exhibition on Electricity Distribution, Stevenage, U.K., 2009: 1-5.
[62]	Hu Z, Li F. Cost-benefit analyses of active distribution network management, part I: Annual benefit analysis[J]. IEEE Transactions on Smart Grid, 2012, 3(3): 1067-1074.
[63]	Hu Z, Li F. Cost-benefit analyses of active distribution network management, part ii: investment reduction analysis[J]. IEEE Transactions on Smart Grid, 2012, 3(3): 1075-1081.
[64]	ZhangJianhua, Zeng Bo, Dong Jun, et al. Bileveldecision-making model and coordination situation algorithm for environment-friendly urban network planning[J]. Proceedings of the CSEE, 2012, 32(10): 56-64.

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