智能电网背景下的现代城市电网规划研究
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摘要
城市电网规划是一个具有多目标性、不确定性、非线性和多阶段性等特点的复杂系统优化问题,是电力工程前期工作的重要部分。在智能电网背景下,采用先进理论和技术进行电网规划,对提高县域电网的运行水平和经济社会效益具有重要的意义。
本文对城市电网规划的理论和实用方法展开研究,对现代城市电网展开“十二五”发展规划研究,探索考虑实用城市规划电网综合评价体系,并对城市智能电网规划做探讨。内容摘要如下:
1、提出了实用城市电网综合评价体系,综合考虑电网安全性、可靠性、适应性、经济性、协调性和智能化水平,并使用加权和法综合评价各量化指标,使之适应于智能电网背景下的城市电网规划要求,对电网规划网架方案的选择起到了参考作用。
2、针对城市电网实际,总结出负荷综合预测方法,并应用到余杭电网规划实际中,取得了较好的效果。
3、以德国亚琛工业大学电力系统可靠性计算软件RAMSES为工具,对典型网架和规划网架进行了可靠性计算分析,在综合评价的基础上提出了110kV推荐接线模式,并应用于实际电网规划中。
4、在建设坚强智能电网的背景下,对智能电网规划做出大胆设想,并根据余杭经济开发区实际情况,针对变电环节、配电环节、用电环节和通信信息环节做出初步规划。
5、针对杭州市余杭区实际情况,从现代城市供电企业管理者的角度,制定了余杭电网“十二五”发展规划。
Urban Power System Planning is a multi-objective, uncertainty, nonlinear, and multi-stage complex optimization problem, it is an important previous part of the Electrical Engineering. In the context of smart grid, advanced theory and technology planning is of great significance to improve the county grid level and the economic social benefits.
The thesis conducts research on urban Power System planning theory and practical methods according to the modern city grid "12 Five Year Plan", tries to explore the practical consideration of the urban Power System Planning Comprehensive Assessment System, and the planning of city smart grid.
Firstly, the thesis proposes a comprehensive evaluation system of practical urban grid, considering grid security, reliability, adaptability, economy, coordination and intelligence level, and uses the weighted sum method to evaluate the quantitative indicators, adapts the system to the requirements of urban smart grid,which has been the reference of Grid Program.
In connection with the actual grid of the city, the thesis summes up load forecast method, and applies to Power System Planning of Yuhang, which has achieved good results.
Using the calculation software RAMSES power system reliability from University of Aachen as a tool, reliability analysis for typical grid and computing grid is proposed. Based on the comprehensive evaluation, 110kV connection modes is also made, and then applies to practical Power System Planning.
In order to building a strong smart grid, the thesis planns to make a bold vision for Yuhang Economic Development Zone, focusing on transformer link, distribution, electricity utilization and communication of the grid, a preliminary program is proposed.
Finally, for the actual situation in Yuhang District of Hangzhou, from the perspective of the modern city power supply manager, a "12 Five Year Plan" Power System Planning of Yuhang is put forward.
本文对城市电网规划的理论和实用方法展开研究,对现代城市电网展开“十二五”发展规划研究,探索考虑实用城市规划电网综合评价体系,并对城市智能电网规划做探讨。内容摘要如下:
1、提出了实用城市电网综合评价体系,综合考虑电网安全性、可靠性、适应性、经济性、协调性和智能化水平,并使用加权和法综合评价各量化指标,使之适应于智能电网背景下的城市电网规划要求,对电网规划网架方案的选择起到了参考作用。
2、针对城市电网实际,总结出负荷综合预测方法,并应用到余杭电网规划实际中,取得了较好的效果。
3、以德国亚琛工业大学电力系统可靠性计算软件RAMSES为工具,对典型网架和规划网架进行了可靠性计算分析,在综合评价的基础上提出了110kV推荐接线模式,并应用于实际电网规划中。
4、在建设坚强智能电网的背景下,对智能电网规划做出大胆设想,并根据余杭经济开发区实际情况,针对变电环节、配电环节、用电环节和通信信息环节做出初步规划。
5、针对杭州市余杭区实际情况,从现代城市供电企业管理者的角度,制定了余杭电网“十二五”发展规划。
Urban Power System Planning is a multi-objective, uncertainty, nonlinear, and multi-stage complex optimization problem, it is an important previous part of the Electrical Engineering. In the context of smart grid, advanced theory and technology planning is of great significance to improve the county grid level and the economic social benefits.
The thesis conducts research on urban Power System planning theory and practical methods according to the modern city grid "12 Five Year Plan", tries to explore the practical consideration of the urban Power System Planning Comprehensive Assessment System, and the planning of city smart grid.
Firstly, the thesis proposes a comprehensive evaluation system of practical urban grid, considering grid security, reliability, adaptability, economy, coordination and intelligence level, and uses the weighted sum method to evaluate the quantitative indicators, adapts the system to the requirements of urban smart grid,which has been the reference of Grid Program.
In connection with the actual grid of the city, the thesis summes up load forecast method, and applies to Power System Planning of Yuhang, which has achieved good results.
Using the calculation software RAMSES power system reliability from University of Aachen as a tool, reliability analysis for typical grid and computing grid is proposed. Based on the comprehensive evaluation, 110kV connection modes is also made, and then applies to practical Power System Planning.
In order to building a strong smart grid, the thesis planns to make a bold vision for Yuhang Economic Development Zone, focusing on transformer link, distribution, electricity utilization and communication of the grid, a preliminary program is proposed.
Finally, for the actual situation in Yuhang District of Hangzhou, from the perspective of the modern city power supply manager, a "12 Five Year Plan" Power System Planning of Yuhang is put forward.
引文
[1]包伟,姚建刚,李晴,欧阳永熙.G I S支持下基于NSGA-Ⅰ 1算法的火电厂多目标选址[J].电力系统保护与控制,2008,36(22):25-28.
[2]孔祥玉,房大中.不确定多目标电源规划模型[J].天津大学学报,2008,41(2):183-87.
[3]罗智慧,李建兵,李爱武.电网规划的多目标满意优化[J].电力学报,2010,25(1):61-3
[4]孙洪波徐国禹秦翼鸿李文沅.电网规划的多目标模糊优化方法[J].重庚大学学报,1992,15(1):48-53.
[5]苗增强,姚建刚,李婷,李佐胜,肖辉耀,盛艳.改进的多目标遗传算法在配电网规划中的应用[J].电力系统及其自动化学报,2009,,21(5):63-66.
[6]张云,王艳君.含分布式发电的配电网规划优化算法的研究[J].沈阳农业大学学报。2007—08,38(4):590—592
[7]任苹,高立群,王珂,李楠.基于混合粒子群优化的电网优化规划[J].东北大学学报,2006,27(8):843-845
[8]王志刚杨丽徙陈根永.基于蚁群算法的配电网网架优化规划方法[J].电力系统及其自动化学报,2002,14(6):73-76
[9]Levi V A, Calovic M S. A new decomposition based method for optimal expansion planning of large transmission network [J]. IEEE Transaction on Power Systems,1993,6(3):937-943.
[10]Binato S, Oliveira GC, Araujo JL. A greedy randomized adaptive search procedure for transmission expansion planning [J]. IEEE Trans on Power Systems,2001,16 (2):247-253.
[11]Haffner S, Monticelli A, Garcia A, et al. Branch and bound algorithm for transmission system expansion planning using transportation model [J]. IEE Proceedings Generation Transmission and Distribution,2000, 147 (3):149-156.
[12]翟海保,程浩忠,吕干云,等.基于模式记忆并行蚁群算法的输电网规划 [J].中国电机工程学报,25(9),2005年5月.
[13]韩辉.基于可靠性评估的电网规划研究[D].硕士学位论文,杭州,浙江大学电气工程学院,2008.
[14]童陆园,王仲鸿,韩英铎,等.大规模输电网优化扩建规划—0-1隐枚举法[A].见:全国高等学校电力系统及其自动化专业第五届学术年会论文集[C].武汉:1988.
[15]周勤惠,胡能正.网流直流法在输电网络自动规划中的应用[J].水电能源科学,第14卷第1期,1996年3月.
[16]Laura B, Gerson C O, Mario P. A mixed integer disjunctive model for transmission network expansion [J]. IEEE Transactions on Power Systems, 2001,16 (3):560-565.
[17]文福拴,韩祯祥.基于Tabu搜索方法的输电系统最优规则[J].电网技术,1997,21(5):2-5.
[18]金明.基于模拟退火算法的输电网中长期规划研究[J].青岛大学学报,第12卷第1期,1999年3月.
[19]林娇燕.运用改进遗传算法的输电网规划[J].华南理工大学学报(自然科学版),第30卷第8期,2002年8月.
[20]贺峰,熊信艮,吴耀武.MPGA在输电网络规划中的应用[J].电力自动化设备,第23卷第8期,2003年8月.
[21]陈礼义,曾颖,李林川,等.具有FACTS设备的输电网络规划[J].中国电机工程学报,第19卷第1期,1999年1月.
[22]Gallego R A, Monticelli A, Romero R. Transmission system expansion planning by an extended genetic algorithm [J]. IEE Proceedings of Generation, Transmission and Distribution,1998,145(3):329-335.
[23]Silva E L, Ortiz J M A, Oliveira G C et al. Transmission network expansion planning under a Tabu search approach [J]. IEEE Trans on Power Systems,2001,16 (1):62-68.
[24]翟海保,程浩忠,等.基于改进蚁群算法的输电网络扩展规划[J].中国 电力,第36卷第12期,2003年12月.
[25]侯云鹤,鲁丽娟,熊信艮,等.改进粒子群算法及其在电力系统经济负荷分配中的应用[J].中国电机工程学报,2004,24(7):95-100.
[26]周晖,周任军,谈顺涛,等.用于无功电压综合控制的改进粒子群优化算法[J].电网技术,2004,28(13):45-49.
[27]胡家声,郭创新,曹一家.一种适合于电力系统机组组合问题的混合粒子群优化算法[J].中国电机工程学报,2004,24(4):24-28.
[28]金义雄,程浩忠,严健勇,等.改进粒子群算法及其在输电网规划中的应用[J].中国电机工程学报,第25卷第4期,2005年2月.
[29]Choi J S, Tran T T, Kang S R, et al. A study on the optimal reliability criteria decision for a transmission system expansion planning[J]. IEEE Trans. on Power Engineering Society General Meeting,2004,1(6):607-613.
[30]朱旭凯,刘文颖,杨以涵.综合考虑可靠性因素的电网规划新方法[J].电网技术,2004、11.
[31]何晓阳,康庆平,肖贵申.基于可靠性成本——效益分析的电网规划[J].继电器,2005、5.
[32]王一、程浩忠.电力市场环境下输电网扩展优化规划研究综述[J].电工技术学报,2007,9.
[33]王艳杰、衣涛.配电网架的综合规划算法[J].沈阳工业大学学报,2008,8.
[34]万明明.考虑可靠性的配电网网架规划研究[D].硕士学位论文,三峡大学,2009.
[35]万国成,任震,何毅思等.混合法在复杂配电可靠性评估中的应用[J].中国电机工程学报,2004,24(9):92-98.
[36]李卫星,李志民,刘迎春.福州辐射状配电系统的可靠性评估[J].中国电机工程学报,2003,23(3):69-73.
[37]别朝红,王秀丽,王锡凡.复杂配电系统的可靠性评估[J].西安交通大学学报,2000,34(8):9-13.
[38]李欣然,李培强,朱湘有等.基于最优化原理的高压配电网建设规模评估[J]. 电力系统自动化,2007,31(4):46-50.
[39]肖峻,罗凤章,王成山等.电网规划综合评判决策系统的设计与应用[J].电网技术,2005,29(2):9-13.
[40]肖峻,王成山,周敏.基于区间层次分析法的城市电网规划综合评判决策[J].中国电机工程学报,2004,24(4):50-57.
[41]肖峻,崔艳妍等.配电网规划的综合评价指标体系与方法[J].电力系统自动化,2008,8.
[42]崔艳妍,电网规划综合评价方法研究与应用[D].硕士学位论文,天津大学.2008
[43]宋连峻,徐志勇.电网项目后评价研究_基于改进模糊层次法[J].技术经济,2009,28(10),52-54
[2]孔祥玉,房大中.不确定多目标电源规划模型[J].天津大学学报,2008,41(2):183-87.
[3]罗智慧,李建兵,李爱武.电网规划的多目标满意优化[J].电力学报,2010,25(1):61-3
[4]孙洪波徐国禹秦翼鸿李文沅.电网规划的多目标模糊优化方法[J].重庚大学学报,1992,15(1):48-53.
[5]苗增强,姚建刚,李婷,李佐胜,肖辉耀,盛艳.改进的多目标遗传算法在配电网规划中的应用[J].电力系统及其自动化学报,2009,,21(5):63-66.
[6]张云,王艳君.含分布式发电的配电网规划优化算法的研究[J].沈阳农业大学学报。2007—08,38(4):590—592
[7]任苹,高立群,王珂,李楠.基于混合粒子群优化的电网优化规划[J].东北大学学报,2006,27(8):843-845
[8]王志刚杨丽徙陈根永.基于蚁群算法的配电网网架优化规划方法[J].电力系统及其自动化学报,2002,14(6):73-76
[9]Levi V A, Calovic M S. A new decomposition based method for optimal expansion planning of large transmission network [J]. IEEE Transaction on Power Systems,1993,6(3):937-943.
[10]Binato S, Oliveira GC, Araujo JL. A greedy randomized adaptive search procedure for transmission expansion planning [J]. IEEE Trans on Power Systems,2001,16 (2):247-253.
[11]Haffner S, Monticelli A, Garcia A, et al. Branch and bound algorithm for transmission system expansion planning using transportation model [J]. IEE Proceedings Generation Transmission and Distribution,2000, 147 (3):149-156.
[12]翟海保,程浩忠,吕干云,等.基于模式记忆并行蚁群算法的输电网规划 [J].中国电机工程学报,25(9),2005年5月.
[13]韩辉.基于可靠性评估的电网规划研究[D].硕士学位论文,杭州,浙江大学电气工程学院,2008.
[14]童陆园,王仲鸿,韩英铎,等.大规模输电网优化扩建规划—0-1隐枚举法[A].见:全国高等学校电力系统及其自动化专业第五届学术年会论文集[C].武汉:1988.
[15]周勤惠,胡能正.网流直流法在输电网络自动规划中的应用[J].水电能源科学,第14卷第1期,1996年3月.
[16]Laura B, Gerson C O, Mario P. A mixed integer disjunctive model for transmission network expansion [J]. IEEE Transactions on Power Systems, 2001,16 (3):560-565.
[17]文福拴,韩祯祥.基于Tabu搜索方法的输电系统最优规则[J].电网技术,1997,21(5):2-5.
[18]金明.基于模拟退火算法的输电网中长期规划研究[J].青岛大学学报,第12卷第1期,1999年3月.
[19]林娇燕.运用改进遗传算法的输电网规划[J].华南理工大学学报(自然科学版),第30卷第8期,2002年8月.
[20]贺峰,熊信艮,吴耀武.MPGA在输电网络规划中的应用[J].电力自动化设备,第23卷第8期,2003年8月.
[21]陈礼义,曾颖,李林川,等.具有FACTS设备的输电网络规划[J].中国电机工程学报,第19卷第1期,1999年1月.
[22]Gallego R A, Monticelli A, Romero R. Transmission system expansion planning by an extended genetic algorithm [J]. IEE Proceedings of Generation, Transmission and Distribution,1998,145(3):329-335.
[23]Silva E L, Ortiz J M A, Oliveira G C et al. Transmission network expansion planning under a Tabu search approach [J]. IEEE Trans on Power Systems,2001,16 (1):62-68.
[24]翟海保,程浩忠,等.基于改进蚁群算法的输电网络扩展规划[J].中国 电力,第36卷第12期,2003年12月.
[25]侯云鹤,鲁丽娟,熊信艮,等.改进粒子群算法及其在电力系统经济负荷分配中的应用[J].中国电机工程学报,2004,24(7):95-100.
[26]周晖,周任军,谈顺涛,等.用于无功电压综合控制的改进粒子群优化算法[J].电网技术,2004,28(13):45-49.
[27]胡家声,郭创新,曹一家.一种适合于电力系统机组组合问题的混合粒子群优化算法[J].中国电机工程学报,2004,24(4):24-28.
[28]金义雄,程浩忠,严健勇,等.改进粒子群算法及其在输电网规划中的应用[J].中国电机工程学报,第25卷第4期,2005年2月.
[29]Choi J S, Tran T T, Kang S R, et al. A study on the optimal reliability criteria decision for a transmission system expansion planning[J]. IEEE Trans. on Power Engineering Society General Meeting,2004,1(6):607-613.
[30]朱旭凯,刘文颖,杨以涵.综合考虑可靠性因素的电网规划新方法[J].电网技术,2004、11.
[31]何晓阳,康庆平,肖贵申.基于可靠性成本——效益分析的电网规划[J].继电器,2005、5.
[32]王一、程浩忠.电力市场环境下输电网扩展优化规划研究综述[J].电工技术学报,2007,9.
[33]王艳杰、衣涛.配电网架的综合规划算法[J].沈阳工业大学学报,2008,8.
[34]万明明.考虑可靠性的配电网网架规划研究[D].硕士学位论文,三峡大学,2009.
[35]万国成,任震,何毅思等.混合法在复杂配电可靠性评估中的应用[J].中国电机工程学报,2004,24(9):92-98.
[36]李卫星,李志民,刘迎春.福州辐射状配电系统的可靠性评估[J].中国电机工程学报,2003,23(3):69-73.
[37]别朝红,王秀丽,王锡凡.复杂配电系统的可靠性评估[J].西安交通大学学报,2000,34(8):9-13.
[38]李欣然,李培强,朱湘有等.基于最优化原理的高压配电网建设规模评估[J]. 电力系统自动化,2007,31(4):46-50.
[39]肖峻,罗凤章,王成山等.电网规划综合评判决策系统的设计与应用[J].电网技术,2005,29(2):9-13.
[40]肖峻,王成山,周敏.基于区间层次分析法的城市电网规划综合评判决策[J].中国电机工程学报,2004,24(4):50-57.
[41]肖峻,崔艳妍等.配电网规划的综合评价指标体系与方法[J].电力系统自动化,2008,8.
[42]崔艳妍,电网规划综合评价方法研究与应用[D].硕士学位论文,天津大学.2008
[43]宋连峻,徐志勇.电网项目后评价研究_基于改进模糊层次法[J].技术经济,2009,28(10),52-54