城市电网自动电压无功控制系统(AVC)建设相关问题的探讨
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摘要
本设计首先介绍了我国在电网的无功电压管理方面存在着许多问题,然后就这些问题的存在说明了对电网实施电压无功优化的实际意义。通过AVC系统的简单介绍,阐述了系统的主要目标是实现电压校正、功率因数校正和网损优化,也即是实现电压合格和无功平衡的问题。通过分析AVC的基本原理,得出实现电压合格和无功平衡的控制手段主要有两种:调节有载调压变压器的分接头和电容器的投切。基于如何实现电压和无功双参数最优化的问题,引出了许多种优化算法,而现在地区电网的电压无功控制系统中多数用的是线性规划法,通过计算得到各个设备对母线电压、功率因数、网损的灵敏度,结合九区图这样一个控制原则,从而实现对电压、无功的优化控制。依据城市电网AVC的性能指标要求,确定了最优方案。最后根据最优方案进行实施,并提出了验收标准和运行管理规程。
This design first introduced that our country has many problems in the aspect of reactive voltage management in the electrical network, then on these question existed, the design explained optimizes the practical significance to the electrical network implementation voltage idle work. Through the simple introduction of the AVC system, it elaborated the essential target of system is to realize the voltage adjustment, the power factor adjustment and the net damages the optimization, also the question of keeping the voltage to be qualified and the realization of the idle work balance. Through analyzing the basic principle of AVC, the design obtained the control method of realization of voltage to be qualified ad the idle work balance mainly has two kinds: The adjustment of the regulating transformer and the capacity or throws or cuts. Based on how to realize the voltage and the idle work optimization, it has drawn out many kind of optimized algorithms, but the voltage idle work control system in the present area electrical network most uses the linear programming law. Obtaining the sensitivity of the equipment to the generatrix voltage, the power factor and the net damages through the computation, unifying the control principle of nine areas charts, thus it realizes the control of the voltage and the idle work optimized. Finally, according to the performance index request of local electrical network AVC, Carry on an implement according to the superior project finally, and put forward checking before acceptance the standard and movement to manage a rules distance.
This design first introduced that our country has many problems in the aspect of reactive voltage management in the electrical network, then on these question existed, the design explained optimizes the practical significance to the electrical network implementation voltage idle work. Through the simple introduction of the AVC system, it elaborated the essential target of system is to realize the voltage adjustment, the power factor adjustment and the net damages the optimization, also the question of keeping the voltage to be qualified and the realization of the idle work balance. Through analyzing the basic principle of AVC, the design obtained the control method of realization of voltage to be qualified ad the idle work balance mainly has two kinds: The adjustment of the regulating transformer and the capacity or throws or cuts. Based on how to realize the voltage and the idle work optimization, it has drawn out many kind of optimized algorithms, but the voltage idle work control system in the present area electrical network most uses the linear programming law. Obtaining the sensitivity of the equipment to the generatrix voltage, the power factor and the net damages through the computation, unifying the control principle of nine areas charts, thus it realizes the control of the voltage and the idle work optimized. Finally, according to the performance index request of local electrical network AVC, Carry on an implement according to the superior project finally, and put forward checking before acceptance the standard and movement to manage a rules distance.
引文
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[16] 王洪生,孟庆梅,梁风珍.供电企业无功补偿分析.华北电力技术,2001,(1):27-33
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[21] E.Lakervi,E.J.Holmes.配电网络规划与设计.北京:中国电力出版社,1999
[22] 郑强.一种新型动态无功补偿和电压调节系统的构想[J].电力学报,2005,20(3):247-249
[23] 邱陶歆.分布式电压无功全局优化控制系统的研制与应用.江西:江西电力(第30卷第3期),2006
[24] 牛焕娜,杨明皓,耿光飞,刘宝英.电压无功全局优化分散控制系统的研究开发.继电器(第34卷第9期),2006,8
[25] 刘宇,程钢.德阳电网无功电压自动控制系统研究.四川:四川电力技术(第29卷第4期).2006,8
[26] 王智涛,梅生伟,胡伟.变电站混成自动电压控制策略研究.电工电能新技术(第25卷第3期),2006,7
[27] 沈建冬,高瑜,高志刚,韦力.遗传算法的改进及其在电力系统无功优化中的应用.现代电子技术(第8期),2006
[28] 王淳,程浩忠.基于模拟植物生长算法的电力系统无功优化.电网技术(第30卷第21期),2006,11
[29] 朱向阳.基于改进禁忌搜索算法的配电网电压无功优化控制.继电器(第34卷第14期),2006,7
[30] 刘方,颜伟,徐国禹.求解动态无功优化问题的混合免疫遗传算法.中国电力(第39卷第8期),2006,8
[31] 王效华,李春光.电网无功功率分布的模糊优化.沈阳工程学院学报(自然科学版)(第1卷第4期),2005,12
[32] 马文胜,任建锋,夏云.基于粒子群算法的变电站电压无功综合控制.中国电力(第39卷第4期),2006,4
[33] Hu Z,Wang X,Chen H,etalVolt/Var Control in Distribution Systems Using a Time-interval Based Approach[J].IEEE Proc---Gener,Transm,and Distrib,2003, 150(5);548-554
[34] 贾德香,唐国庆,韩净.基于改进模拟退火算法的电网无功优化[J].继电器,2004,32(4):32-35
[35] 张学松,柳焯,于尔铿.基于Tabu搜索的配电电容器投切策略[J].电网技术,1998,22(2):33-36
[2] 王士政编著.电网调度自动化与配网自动化技术.北京:中国水利水电出版社,2006.第25页至第98页,第228页至第309页 ,
[3] 付周兴,王清亮,董张卓编著.电力系统自动化.北京:中国电力出版社,2006.第73页至第79页
[4] 侯博渊编著.变电站无功补偿设备的运行与控制.北京:水利电力出版社,1991.第90页至第131页
[5] 吴安官,倪保珊编著.电力系统线损.北京:中国电力出版社,1996.第1页至第254页
[6] 唐艳,王万新,王洪博,王芳.九区图法优化实时无功补偿及其应用.山东:机械工程与自动化(第4期),2006,8
[7] 苏永春,陈星莺,刘存凯.基于遗传算法的变电站电压无功综合控制[J].继电器,2002,(12)
[8] 杨海,呼和.城市电网无功优化控制的原理分析.内蒙古:科技与经济(第19期),2006
[9] 贺鑫忠,赵晋莉,张红艳.地区电网的电压/无功优化控制.山西:电力学报(第21卷第1期),2006
[10] 姜学宝,江卫中.苏州地区电网电压无功优化系统的应用实践.苏州:继电器(第34卷第7期),2006,4
[11] 李玮,岳桂新.无功电压优化集中控制系统.北京:农村电气化(第11期),2006
[12] DELFANTIM, GRANELLI G P.Optimal capacitor placement using deterministic and genetic algorithms [J] .IEEE Trans on PS,2000,15(3):1041—1046
[13] 宋军英,刘涤尘,陈允平.电力系统模糊无功优化的建模及算法[J].电网技术,2001,25(3):22—25.
[14] 李先彬编著.电力系统自动化.北京:水利电力出版社,1986
[15] 陆孟君,李海钧,李致恒.城乡电力网无功补偿技术.北京:水利电力出版社,1989
[16] 王洪生,孟庆梅,梁风珍.供电企业无功补偿分析.华北电力技术,2001,(1):27-33
[17] 刘晓川,黄华林,李兴源,刘俊勇.区域电网电压与无功控制协调.电力系统自动化,1999,23(13):14-17
[18] 陈章潮,唐德光.城市电网规划与改造.北京:中国电力出版社,1998
[19] 陈巧.电力系统稳态分析.北京:水利电力出版社,1995
[20] T.J.E,米勒.电力系统无功功率控制.北京:水利电力出版社,1990
[21] E.Lakervi,E.J.Holmes.配电网络规划与设计.北京:中国电力出版社,1999
[22] 郑强.一种新型动态无功补偿和电压调节系统的构想[J].电力学报,2005,20(3):247-249
[23] 邱陶歆.分布式电压无功全局优化控制系统的研制与应用.江西:江西电力(第30卷第3期),2006
[24] 牛焕娜,杨明皓,耿光飞,刘宝英.电压无功全局优化分散控制系统的研究开发.继电器(第34卷第9期),2006,8
[25] 刘宇,程钢.德阳电网无功电压自动控制系统研究.四川:四川电力技术(第29卷第4期).2006,8
[26] 王智涛,梅生伟,胡伟.变电站混成自动电压控制策略研究.电工电能新技术(第25卷第3期),2006,7
[27] 沈建冬,高瑜,高志刚,韦力.遗传算法的改进及其在电力系统无功优化中的应用.现代电子技术(第8期),2006
[28] 王淳,程浩忠.基于模拟植物生长算法的电力系统无功优化.电网技术(第30卷第21期),2006,11
[29] 朱向阳.基于改进禁忌搜索算法的配电网电压无功优化控制.继电器(第34卷第14期),2006,7
[30] 刘方,颜伟,徐国禹.求解动态无功优化问题的混合免疫遗传算法.中国电力(第39卷第8期),2006,8
[31] 王效华,李春光.电网无功功率分布的模糊优化.沈阳工程学院学报(自然科学版)(第1卷第4期),2005,12
[32] 马文胜,任建锋,夏云.基于粒子群算法的变电站电压无功综合控制.中国电力(第39卷第4期),2006,4
[33] Hu Z,Wang X,Chen H,etalVolt/Var Control in Distribution Systems Using a Time-interval Based Approach[J].IEEE Proc---Gener,Transm,and Distrib,2003, 150(5);548-554
[34] 贾德香,唐国庆,韩净.基于改进模拟退火算法的电网无功优化[J].继电器,2004,32(4):32-35
[35] 张学松,柳焯,于尔铿.基于Tabu搜索的配电电容器投切策略[J].电网技术,1998,22(2):33-36