智能配电网不确定性建模与供电特征优化技术综述

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (6692 KB)
输出: BibTeX | EndNote (RIS)

摘要随着配电网智能化建设水平的提高,智能配电系统的运行与控制将受到大量不确定因素的影响。如何应对与控制不确定因素对供电特征所带来的不确定影响是智能配电网建设与运行面临的本质问题之一。首先,分析智能配电网所包含的源、网、荷、信息系统与外部异质能源系统等五类不确定因素及其对电压稳定性、电能质量等供电特征的不确定影响,概括了智能配电网不确定性分析与优化控制的研究框架。然后,分别从不确定因素特性及建模、因果式与关联式不确定性分析、供电特征不确定运行优化及其支撑技术三个方面进行了梳理和总结,并展望了各自的发展方向及其面临的挑战,以期为后续研究提供借鉴。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	陶顺
	陈鹏伟
	肖湘宁
	陈征

关键词 ：智能配电网, 不确定因素, 不确定性, 供电特征, 不确定运行优化

Abstract：With the intelligent improvement of distribution network, the operation and control in smart distribution system will involve a large number of uncertainties. The optimization control for the power supply characteristics is one of the essential problems under the impacts of uncertainties. This paper first analyzes five kinds of uncertain factors included in smart distribution network, as well as their impacts on power supply characteristics. Then, the research framework of uncertainty in smart distribution network is proposed, where three aspects are summarized respectively including the uncertainty modeling, causal and associative uncertainty analysis, uncertain operating optimization and its supporting technologies. Simultaneously, their development directions and challenges faced are also discussed to provide reference for follow-up research.

Key words： Smart distribution network uncertain factor uncertainty power supply characteristics uncertain operating optimization

收稿日期: 2016-12-01 出版日期: 2017-05-26

PACS:

TM732

基金资助:国家高技术研究发展计划（863计划）（2015AA050603）、国家自然科学基金青年科学基金（51207051）和中央高校基本科研业务费专项资金（2016XS02）资助项目

通讯作者: 陈鹏伟男,1992年生,博士研究生,研究方向智能配电网分析与运行优化。E-mail: chenpw2014@163.com

作者简介: 陶顺女,1972年生,博士,副教授,研究方向为电能质量分析与控制、有源智能配电网。E-mail: taoshun@ncepu.edu.cn

引用本文:

陶顺, 陈鹏伟, 肖湘宁, 陈征. 智能配电网不确定性建模与供电特征优化技术综述[J]. 电工技术学报, 2017, 32(10): 77-91. Tao Shun, Chen Pengwei, Xiao Xiangning, Chen Zheng. Review on Uncertainty Modeling and Power Supply Characteristics Optimization Technology in Smart Distribution Network. Transactions of China Electrotechnical Society, 2017, 32(10): 77-91.

链接本文:

https://dgjsxb.ces-transaction.com/CN/Y2017/V32/I10/77

[1] Rifkin J. The third industrial revolution: how lateral power is transforming energy, the economy, and the world[M]. New York: Palgrave MacMillan, 2011.
[2] 肖湘宁. 新一代电网中多源多变换复杂交直流系统的基础问题[J]. 电工技术学报, 2015, 30(15): 1-14.
Xiang Xiangning. Basic problems of the new complex AC-DC power grid with multiple energy resources and multiple conversions[J]. Transactions of China Electrotechnical Society, 2015, 30(15): 1-14.
[3] 盛万兴, 段青, 梁英, 等. 面向能源互联网的灵活配电系统关键装备与组网形态研究[J]. 中国电机工程学报, 2015, 35(15): 3760-3769.
Sheng Wanxing, Duan Qing, Liang Ying, et al. Research of power distribution and application grid structure and equipment for future energy internet[J]. Proceedings of the CSEE, 2015, 35(15): 3760-3769.
[4] 刘涤尘, 彭思成, 廖清芬, 等. 面向能源互联网的未来综合配电系统形态展望[J]. 电网技术, 2015, 39(11): 3023-3034.
Liu Dichen, Peng Sicheng, Liao Qingfen, et al. Outlook of future integrated distribution system morphology orienting to energy internet[J]. Power System Technology, 2015, 39(11): 3023-3034.
[5] 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.
You Yi, Liu Dong, Yu Wenpeng, et al. Technology and its trends of active distribution network[J]. Auto- mation of Electric Power Systems, 2012, 36(18): 10-16.
[6] 李扬, 王蓓蓓, 李方兴. 灵活互动的智能用电展望与思考[J]. 电力系统自动化, 2015, 39(17): 2-9.
Li Yang, Wang Beibei, Li Fangxing. Outlook and thinking of flexible and interactive utilization of intelligent power[J]. Automation of Electric Power Systems, 2015, 39(17): 2-9.
[7] 王守相, 梁栋, 葛磊蛟. 智能配电网态势感知和态势利导关键技术[J]. 电力系统自动化, 2016, 40(12): 2-8.
Wang Shouxiang, Liang Dong, Ge Leijiao. Key technologies of situation awareness and orientation for smart distribution systems[J]. Automation of Electric Power Systems, 2016, 40(12): 2-8.
[8] 中华人民共和国国家发展改革委, 中华人民共和国国家能源局. 电力发展“十三五规划（2016—2020）”[R]. 北京: 中华人民共和国国家发展改革委, 中华人民共和国国家能源局, 2016.
[9] 薛禹胜, 雷兴, 薛峰, 等. 关于风电不确定性对电力系统影响的评述[J]. 中国电机工程学报, 2014, 34(29): 5029-5040.
Xue Yusheng, Lei Xing, Xue Feng, et al. A review on impacts of wind power uncertainties on power systems[J]. Proceedings of the CSEE, 2014, 34(29): 5029-5040.
[10] Costa A, Crespo A, Navarro J, et al. A review on the young history of the wind power short-term prediction[J]. Renewable & Sustainable Energy Reviews, 2008, 12(6): 1725-1744.
[11] Martinez-Mares A, Fuerte-Esquivel C R. A robust optimization approach for the interdependency analysis of integrated energy systems considering wind power uncertainty[J]. IEEE Transactions on Power Systems, 2013, 28(4): 3964-3976.
[12] 陆一鸣, 刘东, 黄玉辉, 等. 基于CIM的馈线建模和应用[J]. 中国电机工程学报, 2012, 32(28): 157-163.
Lu Yiming, Liu Dong, Huang Yuhui, et al. Feeder modeling and application based on CIM[J]. Pro- ceedings of the CSEE, 2012, 32(28): 157-163.
[13] 孙宏斌, 潘昭光, 郭庆来. 多能流能量管理研究:挑战与展望[J]. 电力系统自动化, 2016, 40(15): 1-8.
Sun Hongbin, Pan Zhaoguang, Guo Qinglai. Energy management for multi-energy flow: challenges and prospects[J]. Automation of Electric Power Systems, 2016, 40(15): 1-8.
[14] Martinez-Mares A, Fuerte-Esquivel C R. A unified gas and power flow analysis in natural gas and electricity coupled networks[J]. IEEE Transactions on Power Systems, 2012, 27(4): 2156-2166.
[15] 陈海焱, 段献忠, 陈金富. 分布式发电对配网静态电压稳定性的影响[J]. 电网技术, 2006, 30(19): 27-30.
Chen Haiyan, Duan Xianzhong, Chen Jinfu. Impacts of distributed generation on steady state voltage stability of distribution system[J]. Power System Technology, 2006, 30(19): 27-30.
[16] 胡丽娟, 刘科研, 盛万兴, 等. 含随机出力分布式电源的配电网静态电压稳定快速概率评估方法[J]. 电网技术, 2014, 38(10): 2766-2771.
Hu Lijuan, Liu Keyan, Sheng Wanxing, et al. Fast probabilistic evaluation of static voltage stability in active distribution network considering random output from distributed generations[J]. Power System Technology, 2014, 38(10): 2766-2771.
[17] 涂轶昀, 李灿, 承林, 等. 电动汽车对电网影响的研究[J]. 广东电力, 2012, 25(5): 11-15.?
Tu Yiyun, Li Chan, Cheng Lin, et al. Research on impact of electric automobiles on power grid[J]. Guangdong Electric Power, 2012, 25(5): 11-15.
[18] 郑颖, 孙近文, 张冲, 等. 考虑电动汽车接入的配电系统静态电压稳定裕度研究[J]. 电工技术学报, 2014, 29(8): 20-26.
Zheng Ying, Sun Jinwen, Zhang Chong, et al. Study of voltage stability margin for the distribution network with electric vehicle integration[J]. Transa- ctions of China Electrotechnical Society, 2014, 29(8): 20-26.
[19] 郭嘉, 韩宇奇, 郭创新, 等. 考虑监视与控制功能的电网信息物理系统可靠性评估[J]. 中国电机工程学报, 2016, 36(8): 2123-2130.
Guo Jia, Han Yuqi, Guo Chuangxin, et al. Reliability assessment of cyber physical power system con- sidering monitoring function and control function[J]. Proceedings of the CSEE, 2016, 36(8): 2123-2130.
[20] 陈鹏伟, 肖湘宁, 陶顺. 直流微网电能质量问题探讨[J]. 电力系统自动化, 2016, 40(10): 148-158.
Chen Pengwei, Xiang Xiangning, Tao Shun. Discussion on power quality problems for DC microgrid[J]. Automation of Electric Power Systems, 2016, 40(10): 148-158.
[21] Zare K, Moghaddam M P, Sheikh-El-Eslami M K. Risk-based electricity procurement for large con- sumers[J]. IEEE Transactions on Power Systems, 2011, 26(4): 1826-1835.
[22] 慈松, 李宏佳, 陈鑫, 等. 能源互联网重要基础支撑: 分布式储能技术的探索与实践. 中国科学: 信息科学, 2014, 44(6): 762-773.
Ci Song, Li Hongjia, Chen Xin, et al. The cornerstone of energy internet: research and practice of distri- buted energy storage technology[J]. Science China: Information Sciences, 2014, 44(6): 762-773.
[23] 谭益. 考虑新能源发电不确定性的智能配电网优化调度研究[D]. 长沙: 湖南大学, 2014.
[24] Papoulis A. Probability, random variables, and stochastic processes[M]. New York, USA: McGraw- Hill, 2002.
[25] Zadeh L A. Fuzzy sets[J]. Information & Control, 1965, 8(3): 338-353.
[26] 邓聚龙. 灰色系统基本方法[M]. 武汉: 华中工学院出版社, 1987.
[27] 杨志民. 不确定性信息数学处理及应用[M]. 北京: 科学出版社, 1999.
[28] 雷秀仁, 任震, 陈碧云, 等. 电力系统可靠性评估的不确定性数学模型探讨[J]. 电力自动化设备, 2005, 25(11): 1-4.
Lei Xiuren, Ren Zhen, Chen Biyun, et al. Study on uncertainty math models of power system reliability evaluation[J]. Electric Power Automation Equipment, 2005, 25(11): 1-4.
[29] 丁明, 吴义纯, 张立军. 风电场风速概率分布参数计算方法的研究[J]. 中国电机工程学报, 2005, 25(10): 107-110.
Ding Ming, Wu Yichun, Zhang Lijun. Study on the algorithm to probabilistic distribution parameters of wind speed in wind farms[J]. Proceedings of the CSEE, 2005, 25(10): 107-110.
[30] Carta J A, Ramirez P, Velázquez S. A review of wind speed probability distributions used in wind energy analysis: case studies in the Canary islands[J]. Renewable and Sustainable Energy Reviews, 2009, 13(5): 933-955.
[31] Zhou J Y, Erdem E, Li G, et al. Comprehensive evaluation of wind speed distribution models: a case study for North Dakota sites[J]. Energy Conversion and Management, 2010, 51(7): 1449-1458. ?
[32] 赵渊, 郭胤, 谢开贵. 考虑参数不确定的电网可靠性概率分布特征[J]. 电网技术, 2013, 37(8): 2165-2172.
Zhao Yuan, Guo Yin, Xie Kaigui. Research on probability distribution characteristics of bulk power system reliability considering parameter uncertainty[J]. Power System Technology, 2013, 37(8): 2165-2172.
[33] 曾鸣, 杜楠, 张鲲, 等. 基于多目标静态模糊模型的分布式电源规划[J]. 电网技术, 2013, 37(4): 954-959.
Zeng Ming, Du Nan, Zhang Kun, et al. Distributed generation planning based on multi-objective static fuzzy model[J]. Power System Technology, 2013, 37(4): 954-959.
[34] 孙洪波, 秦翼鸿, 徐国禹. 计及数据不确定性的发输电组合系统可靠性评估方法[J]. 电力系统自动化, 1996, 20(11): 32-34.
Sun Hongbo, Qin Yihong, Xu Guoyu. The novel approach of composite generation-transmission reliability evaluation with data uncertainty[J]. Automation of Electric Power Systems, 1996, 20(11): 32-34.
[35] 洪芦诚, 石立宝, 姚良忠, 等. 计及风电场发电功率不确定性的电力系统模糊潮流[J]. 电工技术学报, 2010, 25(8): 116-122.
Hong Lucheng, Shi Libao, Yao Liangzhong, et al. Fuzzy modelling and solution of load flow incorporating uncertainties of wind farm gener- ation[J]. Transactions of China Electrotechnical Society, 2010, 25(8): 116-122.
[36] 曾波, 刘思峰. 一种基于区间灰数几何特征的灰数预测模型[J]. 系统工程学报, 2011, 26(2): 174-180.
Zeng Bo, Liu Sifeng. Prediction model of interval grey number based on its geometrical characteri- stics[J]. Journal of Systems Engineering, 2011, 26(2): 174-180.
[37] 王守相, 徐群, 张高磊, 等. 风电场风速不确定性建模及区间潮流分析[J]. 电力系统自动化, 2009, 33(21): 82-86.
Wang Shouxiang, Xu Qun, Zhang Gaolei, et al. Modeling of wind speed uncertainty and interval power flow analysis for wind farms[J]. Automation of Electric Power Systems, 2009, 33(21): 82-86.
[38] 黄涛, 顾洁. 基于未确知数的发电企业分段竞价策略[J]. 电力系统自动化, 2007, 31(6): 23-27.
Huang Tao, Gu Jie. Modeling of HVDC based on the user defined model of PSASP[J]. Automation of Electric Power Systems, 2007, 31(6): 23-27.
[39] 万玉成. 基于未确知性的预测与决策方法及其应用研究[D]. 南京: 东南大学, 2004.
[40] 赵书强, 王海巍. 基于盲数的配电系统可靠性评估[J]. 电力系统保护与控制, 2011, 39(16): 7-12.
Zhao Shuqiang, Wang Haiwei. Power distribution system reliability evaluation based on blind number[J]. Power System Protection and Control, 2011, 39(16): 7-12.
[41] 张嘉堃, 韦钢, 朱兰, 等. 基于盲数模型的含分布式电源配电网供电能力评估[J]. 电力系统自动化, 2016, 40(8): 64-70.
Zhang Jiakun, Wei Gang, Zhu Lan, et al. Blind- number model based power supply capability evaluation of distribution networks with distributed generators[J]. Automation of Electric Power Systems, 2016, 40(8): 64-70.
[42] 马瑞, 张强, 吴瑕, 等. 日风速随机模糊不确定模型[J]. 中国电机工程学报, 2015, 35(24): 6351-6358.
Ma Rui, Zhang Qiang, Wu Xia, et al. Random fuzzy uncertain model for daily wind speed[J]. Proceedings of the CSEE, 2015, 35(24): 6351-6358.
[43] 陈卫东, 肖先勇, 陈礼频, 等. 考虑可靠性参数影响的电压暂降频次联系数评估方法[J]. 中国电机工程学报, 2010, 30(31): 35-42.
Chen Weidong, Xiao Xianyong, Chen Lipin, et al. Connection number assessment of voltage sag frequency considering the influence of the reliability parameters[J]. Proceedings of the CSEE, 2010, 30(31): 35-42.
[44] Zhang N, Kang C, Xu Q, et al. Modelling and simulating the spatio-temporal correlations of clustered wind power using copula[J]. Journal of Electrical Engineering & Technology, 2013, 8(6): 1615-1625.
[45] 张立波, 程浩忠, 曾平良, 等. 基于不确定理论的输电网规划[J]. 电力系统自动化, 2016, 40(16): 159-167.
Zhang Libo, Cheng Haozhong, Zeng Pingliang, et al. Transmission network planning appraoches based on uncertainty theories[J]. Automation of Electric Power Systems, 2016, 40(16): 159-167.
[46] 白杨, 王鹏, 韩肖清, 等. 基于负荷不确定性建模的静态电压稳定性风险评估[J]. 中国电机工程学报, 2016, 36(13): 3470-3478.
Bai Yang, Wang Peng, Han Xiaoqing, et al. Risk assessment of static voltage stability based on load uncertainty modeling[J]. Proceedings of the CSEE, 2016, 36(13): 3470-3478.
[47] Morales J M, Baringo L, Conejo A J, et al. Pro- babilistic power flow with correlated wind sources[J]. Iet Generation Transmission & Distribution, 2010, 4(5): 641-651.
[48] 陈雁, 文劲宇, 程时杰. 考虑输入变量相关性的概率潮流计算方法[J]. 中国电机工程学报, 2011, 31(22): 80-87.
Chen Yan, Wen Jinyu, Cheng Shijie. Probabilistic load flow analysis considering dependencies among input random variables[J]. Proceedings of the CSEE, 2011, 31(22): 80-87.
[49] 石东源, 蔡德福, 陈金富, 等. 计及输入变量相关性的半不变量法概率潮流计算[J]. 中国电机工程学报, 2012, 32(28): 104-113.
Shi Dongyuan, Cai Defu, Chen Jinfu, et al. Pro- babilistic load flow calculation based on cumulant method considering correlation between input variables[J]. Proceedings of the CSEE, 2012, 32(28): 104-113.
[50] Ai X, Wen J, Wu T, et al. A discrete point estimate method for probabilistic load flow based on the measured data of wind power[J]. IEEE Transactions on Industry Applications, 2012, 49(49): 2244-2252.
[51] Matos A, Gouveia M. The fuzzy power flow revisited[J]. IEEE Transactions on Power Systems, 2008, 23(1): 213-218.
[52] 王守相, 刘若沁. 基于模糊区间算法的配电网潮流计算[J]. 电力系统自动化, 2000, 24(20): 19-22.
Wang Shouxiang, Liu Ruoqin. Fuzzy interval algorithm based computation of power flow in distri- bution network[J]. Automation of Electric Power Systems, 2000, 24(20): 19-22.
[53] Wang Z, Alvarado F L. Interval arithmetic in power flow analysis[J]. IEEE Transactions on Power Systems, 1992, 7(3): 1341-1349.
[54] 鲍海波, 韦化, 郭小璇. 考虑风速相关性和可调度负荷不确定性的区间最优潮流[J]. 中国电机工程学报, 2016, 36(10): 2628-2637. Bao Haibo, Wei Hua, Guo Xiaoxuan. Interval optimal power flow calculation considering interval correlated wind power and uncertain dispatchable load[J]. Proceedings of the CSEE, 2016, 36(10): 2628-2637.
[55] Vaccaro A, Canizares C A, Villacci D. An affine arithmetic-based methodology for reliable power flow analysis in the presence of data uncertainty[J]. IEEE Transaction on Power Systems, 2010, 25(2): 624-632.
[56] Munoz J, Canizares C, Bhattacharya K, et al. An affine arithmetic-based method for voltage stability assessment of power systems with intermittent generation sources[J]. IEEE Transactions on Power Systems, 2013, 28(4): 4475-4487.
[57] 丁涛, 崔翰韬, 顾伟, 等. 基于区间和仿射运算的不确定潮流算法[J]. 电力系统自动化, 2012, 36(13): 51-55.
Ding Tao, Cui Hantao, Gu Wei, et al. An uncertainty power flow algorithm based on interval and affine arithmetic[J]. Automation of Electric Power Systems, 2012, 36(13): 51-55.
[58] 丁涛, 柏瑞, 郭庆来, 等. 一种非迭代仿射算法的输电网区间潮流计算方法[J]. 中国电机工程学报, 2013, 33(19): 76-83.
Ding Tao, Bo Rui, Guo Qinglai, et al. A non-iterative affine arithmetic methodology for interval power flow analysis of transmission network[J]. Pro- ceedings of the CSEE, 2013, 33(19): 76-83.
[59] 王守相, 韩亮. DG出力不确定性对配电网影响力分析的复仿射数学方法[J]. 中国电机工程学报, 2014, 34(31): 5507-5515.
Wang Shouxiang, Han Liang. Complex affine arithmetic based method for the analyses of DG's uncertainty influence on distribution network[J]. Proceedings of the CSEE, 2014, 34(31): 5507-5515.
[60] Wang S, Han L, Wu L. Uncertainty tracing of distributed generations via complex affine arithmetic based unbalanced three-phase power flow[J]. IEEE Transactions on Power Systems, 2015, 30(6): 3053- 3062.
[61] 王继业, 季知祥, 史梦洁, 等. 智能配用电大数据需求分析与应用研究[J]. 中国电机工程学报, 2015, 35(8): 1829-1836.
Wang Jiye, Ji Zhixiang, Shi Mengjie, et al. Scenario analysis and application research on big data in smart power distribution and consumption systems[J]. Proceedings of the CSEE, 2015, 35(8): 1829-1836.
[62] 张东霞, 苗新, 刘丽平, 等. 智能电网大数据技术发展研究[J]. 中国电机工程学报, 2015, 35(1): 2-12.
Zhang Dongxia, Miao Xin, Liu Liping, et al. Research on development strategy for smart grid big data[J]. Proceedings of the CSEE, 2015, 35(1): 2-12.
[63] 陈鹏伟, 陶顺, 肖湘宁, 等. 配电网电压不确定水平弹性网分析方法[J/OL]. 中国电机工程学报, 2016, doi:10.13334/j.0258-8013.pcsee.160668.
Chen Pengwei, Tao Shun, Xiao Xiangning, et al. A method to analyze the voltage levels of uncertainty in distribution network with elastic net[J/OL]. Pro- ceedings of the CSEE, 2016, doi:10.13334/j.0258- 8013.pcsee.160668.
[64] Chen Pengwei, Tao Shun, Xiao Xiangning, et al. Uncertainty level of voltage in distribution network: an analysis model with elastic net and application in storage configuration[J]. IEEE Transaction on Smart Grid, 2016, doi:10.1109/TSG.2016.2614547.
[65] 陈鹏伟, 陶顺, 肖湘宁, 等. 短时间尺度用电行为相关性分析网络模型[J]. 电力系统自动化, 2017, 40(3): 61-69.
Chen Pengwei, Tao Shun, Xiao Xiangning, et al. Emergency control strategy against line overload based on virtual control units and heuristic search[J]. Automation of Electric Power Systems, 2017, 40(3): 61-69.
[66] 严英杰, 盛戈皞, 王辉, 等. 基于高维随机矩阵大数据分析模型的输变电设备关键性能评估方法[J]. 中国电机工程学报, 2016, 36(2): 435-445.
Yan Yingjie, Sheng Gehao, Wang Hui, et al. The key state assessment method of power transmission equipment using big data analyzing model based on large dimensional random matrix[J]. Proceedings of the CSEE, 2016, 36(2): 435-445.
[67] 魏大千, 王波, 刘涤尘, 等. 高维随机矩阵描述下的量测大数据建模与异常数据检测方法[J]. 中国电机工程学报, 2015, 35(增刊1): 59-66.
Wei Daqian, Wang Bo, Liu Dichen, et al. A method for WAMS big data modeling and abnormal data detection with large random matrices[J]. Proceedings of the CSEE, 2015, 35(S1): 59-66.
[68] Charnes A, Cooper W W. Chance-constrained pro- gramming[J]. Management Science, 1959, 6(6): 73-79.
[69] Ruszczy'nski A. Probabilistic programs with discrete distributions and precedence constrained knapsack polyhedra[J]. Mathematical Programming, 2002, 93(2): 195-215.
[70] Dantzig G B. Linear programming under uncer- tainty[J]. Management Science, 1955, 50(12 supplement): 1-11.
[71] Inuiguchi M, Ramı?K J. Possibilistic linear pro- gramming: a brief review of fuzzy mathematical programming and a comparison with stochastic programming in portfolio selection problem[J]. Fuzzy Sets & Systems, 2000, 111(1): 3-28.
[72] Moore R E. Methods and applications of interval analysis[M]. SIAM, Philadelphia, 1979.
[73] 陈海焱, 陈金富, 段献忠. 含风电机组的配网无功优化[J]. 中国电机工程学报, 2008, 28(7): 40-45.
Chen Haiyan, Chen Jinfu, Duan Xianzhong. A method for WAMS big data modeling and abnormal data detection with large random matrices[J]. Pro- ceedings of the CSEE, 2008, 28(7): 40-45.
[74] 王淳, 高元海. 基于概率统计的含间歇性分布式发电的配电网无功优化[J]. 电网技术, 2014, 38(4): 1032-1037.
Wang Chun, Gao Yuanhai. Probability statistics based reactive power optimization of distribution network containing intermittent distributed gener- ations[J]. Power System Technology, 2014, 38(4): 1032-1037.
[75] Cao Yijia, Tan Yi, Li Canbing, et al. Chance- constrained optimization-based unbalanced optimal power flow for radial distribution networks[J]. IEEE Transactions on Power Delivery, 2013, 28(3): 1855- 1864.
[76] Tan Yi, Cao Yijia, Li Canbing, et al. A two-stage stochastic programming approach considering risk level for distribution networks operation with wind power[J]. IEEE Systems Journal, 2015, 10(1): 117-126.
[77] 尤毅, 刘东, 钟清, 等. 主动配电网优化调度策略研究[J]. 电力系统自动化, 2014, 38(9): 177-183.
You Yi, Liu Dong, Zhong Qing, et al. Research on optimal schedule strategy for active distribution network[J]. Automation of Electric Power Systems, 2014, 38(9): 177-183.
[78] Malekpour A R, Niknam T. A probabilistic multi- objective daily Volt/Var control at distribution networks including renewable energy sources[J]. Energy, 2011, 36(5): 3477-3488.
[79] 王贵斌, 赵俊华, 文福拴, 等. 配电系统中电动汽车与可再生能源的随机协同调度[J]. 电力系统自动化, 2012, 36(19): 22-29.
Wang Guibin, Zhao Junhua, Wen Fushuan, et al. Stochastic optimization dispatching of plug-in hybird electric vehicles in coordination with renewable generation in distribution systems[J]. Automation of Electric Power Systems, 2012, 36(19): 22-29.
[80] 高亚静, 李瑞环, 梁海峰, 等. 考虑间歇性电源与负荷不确定性情况下基于多场景技术的主动配电系统两步优化调度[J]. 中国电机工程学报, 2015, 35(7): 1657-1665.
Gao Yajing, Li Ruihuan, Liang Haifeng, et al. Two step optimal dispatch based on multiple scenarios technique considering uncertainties of intermittent distributed generations and loads in the active distribution system[J]. Proceedings of the CSEE, 2015, 35(7): 1657-1665.
[81] Liang R H, Chen Y K, Chen Y T. Volt/var control in a distribution system by a fuzzy optimization approach[J]. International Journal of Electrical Power & Energy Systems, 2011, 33(2): 278-287.
[82] 王守相, 王栋, 韩亮. 考虑不确定性的微网日前经济优化调度区间线性规划方法[J]. 电力系统自动化, 2014, 38(24): 5-11.
Wang Shouxiang, Wang Dong, Han Liang. Interval linear programming method for day-ahead optimal economic dispatching of microgrid considering uncertainty[J]. Automation of Electric Power Systems, 2014, 38(24): 5-11.
[83] 丁涛, 郭庆来, 柏瑞, 等. 考虑风电不确定性的区间经济调度模型及空间分支定界法[J]. 中国电机工程学报, 2014, 34(22): 3707-3714.
Ding Tao, Guo Qinglai, Bo Rui, et al. Interval economic dispatch model with uncertain wind power injection and spatial branch and bound method[J]. Proceedings of the CSEE, 2014, 34(22): 3707-3714.
[84] 尹丽燕, 于继来. 多时间段落的配电网络动态重构[J]. 中国电机工程学报, 2002, 22(7): 44-48, 80.
Yin Liyan, Yu Jilai. Dynamic reconfiguration (DR) of distribution network with multi-time periods[J]. Proceedings of the CSEE, 2002, 22(7): 44-48, 80.
[85] 王淳, 高元海. 采用最优模糊C均值聚类和改进化学反应算法的配电网络动态重构[J]. 中国电机工程学报, 2014, 34(10): 1682-1691.
Wang Chun, Gao Yuanhai. Dynamic reconfiguration of distribution network based on optimal fuzzy c-means clustering and improved chemical reaction optimization[J]. Proceedings of the CSEE, 2014, 34(10): 1682-1691.
[86] 马丽, 刘念, 张建华, 等. 自动需求响应模式下光伏用户群的优化运行模型[J]. 中国电机工程学报, 2016, 36(13): 3422-3432.
Ma Li, Liu Nian, Zhang Jianhua, et al. Optimal operation model of user group with photovoltaic in the mode of utomatic demand response[J]. Pro- ceedings of the CSEE, 2016, 36(13): 3422-3432.
[87] Gopher D, Well M, Bareket T. Toward a theory of situation awareness in dynamic systems[J]. Human Factors: the Journal of the Human Factors & Ergonomics Society, 1995, 37(1): 32-64.
[88] 董旭柱, 黄邵远, 陈柔伊, 等. 智能配电网自愈控制技术[J]. 电力系统自动化, 2012, 36(18): 17-21.
Dong Xuzhu, Huang Shaoyuan, Chen Rouyi, et al. Self-healing control technology for smart distribution system[J]. Automation of Electric Power Systems, 2012, 36(18): 17-21.
[89] 黄泽华, 李锰, 刘裕涵, 等. 智能配电网自愈控制方案研究[J]. 电工技术学报, 2014, 29(增刊1): 492- 496.
Huang Zehua, Li Meng, Liu Yuhan, et al. Research of smart distribution network self-healing scheme[J]. Transactions of China Electrotechnical Society, 2014, 29(S1): 492-496.
[90] 曾博, 杨雍琦, 段金辉, 等. 新能源电力系统中需求侧响应关键问题及未来研究展望[J]. 电力系统自动化, 2015, 39(17): 10-18.
Zeng Bo, Yang Yongqi, Duan Jinhui, et al. Key issues and research prospects for demand-side response in alternate electrical power systems with renewable energy sources[J]. Automation of Electric Power Systems, 2015, 39(17): 10-18.
[91] Mistry K D, Roy R. Impact of demand response program in wind integrated distribution network[J]. Electric Power Systems Research, 2014, 108(108): 269-281.
[92] 王成山, 武震, 李鹏. 分布式电能存储技术的应用前景与挑战[J]. 电力系统自动化, 2014, 18(16): 1-8.
Wang Chengshan, Wu Zhen, Li Peng. Prospects and challenges of distributed electricity technology[J]. Automation of Electric Power Systems, 2014, 18(16): 1-8.
[93] 李建林, 马会萌, 惠东. 储能技术融合分布式可再生能源的现状及发展趋势[J]. 电工技术学报, 2016, 31(14): 1-10, 20.
Li Jianlin, Ma Huimeng, Hui Dong. Present development condition and trends of energy storage technology in the integration of distributed renewable energy[J]. Transactions of China Electrotechnical Society, 2016, 31(14): 1-10, 20.
[94] Beck H P, Hesse R. Virtual synchronous machine[C]//International Conference on Electrical Power Quality and Utilization, 2007: 1-6.
[95] Torres M, Lopes L A C. Virtual synchronous generator: a control strategy to improve dynamic frequency control in autonomous power systems[J]. Energy & Power Engineering, 2013, 5(2): 32-38.
[96] 郑天文, 陈来军, 陈天一, 等. 虚拟同步发电机技术及展望[J]. 电力系统自动化, 2015, 39(21): 165-175.
Zheng Tianwen, Chen Laijun, Chen Tianyi, et al. Review and prospect of virtual synchronous generator technologies[J]. Automation of Electric Power Systems, 2015, 39(21): 165-175.
[97] 李子欣, 王平, 楚遵方, 等. 面向中高压智能配电网的电力电子变压器研究[J]. 电网技术, 2013, 37(9): 2592-2601.
Li Zixin, Wang Ping, Chu Zunfang, et al. Research on medium and high-voltage smart distribution grid oriented power electronic transformer[J]. Power System Technology, 2013, 37(9): 2592-2601.
[98] 兰征, 涂春鸣, 肖凡, 等. 电力电子变压器对交直流混合微网功率控制的研究[J]. 电工技术学报, 2015, 30(23): 50-57.
Lan Zheng, Tu Chunming, Xiao Fan, et al. The power control of power electronic transformer in hybird AC-DC microgrid[J]. Transactions of China Electro- technical Society, 2015, 30(23): 50-57.
[99] Shah D G, Crow M L. Online Volt-Var control for distribution systems with solid state transformers[J]. IEEE Transactions on Power Delivery, 2016, 31(1): 343-350.
[100] Cao Wanyu, Wu Jianzhong, Jenkins N, et al. Benefits analysis of soft open points for electrical distribution network operation[J]. Applied Energy, 2016, 165: 36-47.
[101] Cao Wanyu, Wu Jianzhong, Jenkins N, et al. Operating principle of soft open points for electrical distribution network operation[J]. Applied Energy, 2016, 164: 245-257.
[102] 王成山, 宋关羽, 李鹏, 等. 基于智能软开关的智能配电网柔性互联技术及展望[J]. 电力系统自动化, 2016, 40(22): 168-175.
Wang Chengshan, Song Guanyu, Li Peng, et al. Research and prospect for soft open point based flexible interconnection technology for smart distri- bution network[J]. Automation of Electric Power Systems, 2016, 40(22): 168-175.