地区电网多变电站电压无功协调控制系统结构和策略的研究
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摘要
在电力系统中,对地区电网中的有载调压变压器和补偿电容器进行协调控制,能够有效提高电压水平、降低有功功率损耗,对系统的安全稳定经济运行具有重要意义。本文对电压无功协调控制系统的结构和控制策略进行了研究。
本文采用分层分布式结构构建电压无功协调控制系统,系统由管理级、变电站控制级和现场控制级构成。电压无功的实时控制策略由管理级和控制级协调产生;优化控制策略由管理级负责生成。将被控制区域划分为若干个相对独立的控制区域,各控制区域相互协调来完成电压无功校正任务。另外系统还引入预防控制,在电压未越限时提前进行校正,提高了电压的稳定裕度。算例表明,通过协调控制系统的合理动作,可以使10KV母线电压合格裕度有较大的提高,无功潮流分布合理,有效降低了网损。
In Power system, it can effectively improve the voltage and decrease the real power loss that coordinated control the transformer tap and the compensatory capacitor of the region network. The voltage and reactive power control makes the running of the systems more safe and stable and economical. This article has discussed the system structure and the control strategy of the voltage and reactive power coordinated control system.
In this article, structure of layering and distributing is introduced and the coordinated control system consists of the supervisory level, the substation control level and field control level. The real-time control strategy is created by coordination of the supervisory level and the substation control level; the supervisory level creates the optimal control strategy. The region network is divided into some relatively uncoupled zones, and the zones cooperate with each other to accomplish the voltage and reactive power emendation. The system introduces the preventive control that executes the emendation before the voltage violations, and it can increase the voltage security margin. An instance indicates that the coordinated control system can increase the margin of appropriate voltage in the 10KV bus, make the reactive power flow rational and decrease the loss of the network through the reasonable actions of its.
本文采用分层分布式结构构建电压无功协调控制系统,系统由管理级、变电站控制级和现场控制级构成。电压无功的实时控制策略由管理级和控制级协调产生;优化控制策略由管理级负责生成。将被控制区域划分为若干个相对独立的控制区域,各控制区域相互协调来完成电压无功校正任务。另外系统还引入预防控制,在电压未越限时提前进行校正,提高了电压的稳定裕度。算例表明,通过协调控制系统的合理动作,可以使10KV母线电压合格裕度有较大的提高,无功潮流分布合理,有效降低了网损。
In Power system, it can effectively improve the voltage and decrease the real power loss that coordinated control the transformer tap and the compensatory capacitor of the region network. The voltage and reactive power control makes the running of the systems more safe and stable and economical. This article has discussed the system structure and the control strategy of the voltage and reactive power coordinated control system.
In this article, structure of layering and distributing is introduced and the coordinated control system consists of the supervisory level, the substation control level and field control level. The real-time control strategy is created by coordination of the supervisory level and the substation control level; the supervisory level creates the optimal control strategy. The region network is divided into some relatively uncoupled zones, and the zones cooperate with each other to accomplish the voltage and reactive power emendation. The system introduces the preventive control that executes the emendation before the voltage violations, and it can increase the voltage security margin. An instance indicates that the coordinated control system can increase the margin of appropriate voltage in the 10KV bus, make the reactive power flow rational and decrease the loss of the network through the reasonable actions of its.
引文
[1] 陈珩.电力系统稳态分析.北京:中国电力出版社,1995.
[2] 严浩军.变电站电压无功综合控制策略的改进.电网技术,1997,21(10):47~49.
[3] 钱晶,黎敬霞,王莉.变电站无功电压控制策略.云南水利发电,2002,18(2):30~31.
[4] 厉吉文,潘贞存,李红梅,等.变电所电压无功自动判据的研究.中国电力,1995,(7):12~15.
[5] 仝庆贻,颜钢锋.变电站电压无功综合控制的研究.继电器,2001,29(10):22~25.
[6] 苏永春.配电系统无功电压优化控制.河海大学硕士研究生毕业论文,2003.
[7] 王耀南,徐泽华.电压无功控制系统中模糊积分控制器的设计.电工技术学报,2002,17(1):101~104.
[8] 盛戈皞 ,涂光瑜,罗毅.人工智能技术在电力系统无功电压控制中的应用.电网技术,2002,26(6):22~27.
[9] 杨争林.基于ANN的变电站电压和无功综合自动控制.电力系统自动化,1999,7(13):10~13.
[10] 魏远航,汪仁煌.基于模糊神经网络的变电站电压无功综合控制.广东自动化与信息工程,2002,(1):28~31.
[11] F.C.Lu, Y.Y.Hsu, "Reactive power/voltage control in a distribution substation using dynamic programming", IEE Proceedings, Part C, Vol.142, No.6, November 1995, pp.639~645.
[12] F.C.Lu, Y.Y.Hsu, "Fuzzy dynamic programming approach to Reactive power/voltage control in a distribution substation", IEEE Trans on Power Systems, Vol.12, No.2, May 1997, pp.681-688.
[13] 赵虎,孙健利,刘沛.基于BP神经网络和模糊动态规划的变电站无功、电压控制 方法.自动化技术与应用,2001, (5):17~20.
[14] Show-kang Chang, George E.Marks, Ken Kato, "Optimal Real Time Voltage Control", IEEE Trans on Power Systems, Vol.5, No.3, August 1990, pp750-757.
[15] C.J.Bridenbaugh, D.A.Dimascio, R.D'Aquila, "Voltage Control Improvement through Capcitor and Transformer Tap Optimization", IEEE Trans on Power Systems, Vol.7, No.1, Feb 1992, pp.222-227.
[16] 郭庆来,吴越,张伯明,等.地区电网无功优化实时控制系统的研究与开发.电力系统自动化,2002,26(13):66~69.
[17] 丁晓群,周玲,陈晟,等.无功,电压优化集中控制系统软件.中国电力,2001,34
(6):49~50.
[18] 丁晓群,廖亨利,周玲.地区电网无功电压实时闭环控制软件.电力系统自动化,2001,(11):66~67.
[19] 丁晓群,陈晟,许杏桃,等.全网无功电压优化集中控制系统在泰州电网的应用.电网技术,2000,24(12):21~23.
[20] J.P.Paul, J.Y.Leost, J.M.Tesseron, "Survey of the Secondary Voltage Control in France:Present Realization and Investigations", IEEE Trans on Power Systems, Vol.2, No.2, May 1987, pp.505~511.
[21] J.L.Sancha, J.L.Femandez, A.Cartes, et al,"Secondary Voltage Control:Analysis, Solutions and Simulation Results for the Spanish Transmission System", IEEE Trans on Power Systems, Vol.11, No.2, May 1996, pp.630~638.
[22] Aleksandar Stankovic, Marija Ilic, Dominic Maratukulam, "Recent Results in Secondary Voltage Control of Power Systems", IEEE Trans on Power Systems, vol.6, No.1, 1991, pp.94~101.
[23] 范磊,陈珩.二次电压控制研究.电力系统自动化,2000,6.
[24] 盛戈皞,涂光瑜,罗毅,等.考虑控制区域间影响的二级电压控制.电力系统自动化,2002,26(15):27~32.
[25] 孙元章,王志芳,姚小寅.电力系统二级电压控制的研究.电力系统自动化,1999,23(9):9~3.
[26] H.Vu, P.Pruvot, C.launay, et al, "An Improved Voltage Control on Large-scale Power system", IEEE Trans on Power Systems, Vol.11, No.3, Oct 1996, pp.1295-1301.
[27] P.Lagonotte, J.C.Sabonnadiere, J.Y.Leost, et al, "Structral Analysis of the Electrical Systems: Application to Secondary Voltage Control in France", IEEE Trans on Power Systems, Vol.4, No.2, May 1989, pp.479-483.
[28] 李兴源,刘俊勇,刘晓川.电网电压无功监控系统的设计.四川电力技术,2002,(2):3~5.
[29] 盛戈皞,涂光瑜,罗毅,等.基于多Agent的二级电压控制系统.电力系统自动化,2002,(3):20~25.
[30] 李卫东,方自力.面向地区电网的无功/电压优化控制的应用.电力需求侧管理,2001,3(3):44~46.
[31] 唐寅生.电力系统无功电压调控装置控制策略.电力自动化设备,2001,21(6):34~36.
[32] Ching-Tzong Su, Chien-Tung Lin, "A New Fuzzy Control Approach to Voltage Profile Enhancement for Power Systems", IEEE Trans on Power Systems, Vol.11, No.3, August 1996, pp.1654~1659.
[33] Qiang Wu, Dragana H.Popovic, David J.Hill, et al, "Voltage Security Enhancement
via Coordinated Control", IEEE Trans on Power Systems, Vol.16, No.1, Feb 2001,pp.127~135.
[34] 廖亨利.基于分级递阶的地调/中心站模式的无功电压控制.河海大学硕士研究生毕业论文,2003.
[35] 方朝雄,林玉琳,苏毅.福建电网自动电压控制技术实现探讨.福建电力与电工,2002,22(4):21~25.
[36] 靳龙章,丁毓山.电网无功补偿实用技术.北京:中国水利水电出版社.1997.
[37] 刘笙.电气工程基础.北京:科学出版社.2002.
[38] 王勇.无人值班变电站实行无功电压集中控制的探讨.湖北电力,2001,25(5):42~46.
[39] 庄侃沁,李兴源.变电站电压无功控制策略和实现方式.电力系统自动化,2001,25(15):47~50.
[40] 候朝桢.分布式计算机控制系统.北京:北京理工大学出版社.1997.
[41] 白焰,吴鸿,杨国田.分散控制系统与现场总线控制系统.北京:中国电力出版社.2001.
[42] 张鑫.计算机分散控制系统.北京:水利电力出版社.1992.
[43] 刘桥,蒋梁中,谢存禧,等.集散控制系统与现场总线控制系统.现代电子技术,2003,(13):89~92.
[44] 潘世勇,郑萍,李英.集散控制系统(DCS) 的发展及展望.自动化与仪器仪表,2003,(4):4~6.
[45] 俞金寿,何衍庆.集散控制系统原理及应用.北京:化学工业出版社.1995.
[46] 李亚男.电力系统智能无功优化及准实时无功/电压控制的研究.华北电力大学博士生毕业论文.2001.
[47] 王梅义,吴竞昌,蒙定中.大电网系统技术.北京:中国电力出版社.1995.
[48] 李丽英,周庆捷,杨少坤.电力系统无功优化问题的研究综述.电力情报,2002,(3):69~74.
[49] Kenji Iba, "Reactive power Optimization by Genetic Algorithm", IEEE Transcation on Power Systems, Vol.9, No.2, May 1994, pp.685-692.
[50] 张昆,潘云江,柴芬义.遗传算法再电力系统无功优化中的应用综述.电力情报,2001,(1):1~4.
[51] 王辉,楚国良.基于SCADA系统的变电站电压无功综合控制.测控技术,2002,21(5):57~59.
[2] 严浩军.变电站电压无功综合控制策略的改进.电网技术,1997,21(10):47~49.
[3] 钱晶,黎敬霞,王莉.变电站无功电压控制策略.云南水利发电,2002,18(2):30~31.
[4] 厉吉文,潘贞存,李红梅,等.变电所电压无功自动判据的研究.中国电力,1995,(7):12~15.
[5] 仝庆贻,颜钢锋.变电站电压无功综合控制的研究.继电器,2001,29(10):22~25.
[6] 苏永春.配电系统无功电压优化控制.河海大学硕士研究生毕业论文,2003.
[7] 王耀南,徐泽华.电压无功控制系统中模糊积分控制器的设计.电工技术学报,2002,17(1):101~104.
[8] 盛戈皞 ,涂光瑜,罗毅.人工智能技术在电力系统无功电压控制中的应用.电网技术,2002,26(6):22~27.
[9] 杨争林.基于ANN的变电站电压和无功综合自动控制.电力系统自动化,1999,7(13):10~13.
[10] 魏远航,汪仁煌.基于模糊神经网络的变电站电压无功综合控制.广东自动化与信息工程,2002,(1):28~31.
[11] F.C.Lu, Y.Y.Hsu, "Reactive power/voltage control in a distribution substation using dynamic programming", IEE Proceedings, Part C, Vol.142, No.6, November 1995, pp.639~645.
[12] F.C.Lu, Y.Y.Hsu, "Fuzzy dynamic programming approach to Reactive power/voltage control in a distribution substation", IEEE Trans on Power Systems, Vol.12, No.2, May 1997, pp.681-688.
[13] 赵虎,孙健利,刘沛.基于BP神经网络和模糊动态规划的变电站无功、电压控制 方法.自动化技术与应用,2001, (5):17~20.
[14] Show-kang Chang, George E.Marks, Ken Kato, "Optimal Real Time Voltage Control", IEEE Trans on Power Systems, Vol.5, No.3, August 1990, pp750-757.
[15] C.J.Bridenbaugh, D.A.Dimascio, R.D'Aquila, "Voltage Control Improvement through Capcitor and Transformer Tap Optimization", IEEE Trans on Power Systems, Vol.7, No.1, Feb 1992, pp.222-227.
[16] 郭庆来,吴越,张伯明,等.地区电网无功优化实时控制系统的研究与开发.电力系统自动化,2002,26(13):66~69.
[17] 丁晓群,周玲,陈晟,等.无功,电压优化集中控制系统软件.中国电力,2001,34
(6):49~50.
[18] 丁晓群,廖亨利,周玲.地区电网无功电压实时闭环控制软件.电力系统自动化,2001,(11):66~67.
[19] 丁晓群,陈晟,许杏桃,等.全网无功电压优化集中控制系统在泰州电网的应用.电网技术,2000,24(12):21~23.
[20] J.P.Paul, J.Y.Leost, J.M.Tesseron, "Survey of the Secondary Voltage Control in France:Present Realization and Investigations", IEEE Trans on Power Systems, Vol.2, No.2, May 1987, pp.505~511.
[21] J.L.Sancha, J.L.Femandez, A.Cartes, et al,"Secondary Voltage Control:Analysis, Solutions and Simulation Results for the Spanish Transmission System", IEEE Trans on Power Systems, Vol.11, No.2, May 1996, pp.630~638.
[22] Aleksandar Stankovic, Marija Ilic, Dominic Maratukulam, "Recent Results in Secondary Voltage Control of Power Systems", IEEE Trans on Power Systems, vol.6, No.1, 1991, pp.94~101.
[23] 范磊,陈珩.二次电压控制研究.电力系统自动化,2000,6.
[24] 盛戈皞,涂光瑜,罗毅,等.考虑控制区域间影响的二级电压控制.电力系统自动化,2002,26(15):27~32.
[25] 孙元章,王志芳,姚小寅.电力系统二级电压控制的研究.电力系统自动化,1999,23(9):9~3.
[26] H.Vu, P.Pruvot, C.launay, et al, "An Improved Voltage Control on Large-scale Power system", IEEE Trans on Power Systems, Vol.11, No.3, Oct 1996, pp.1295-1301.
[27] P.Lagonotte, J.C.Sabonnadiere, J.Y.Leost, et al, "Structral Analysis of the Electrical Systems: Application to Secondary Voltage Control in France", IEEE Trans on Power Systems, Vol.4, No.2, May 1989, pp.479-483.
[28] 李兴源,刘俊勇,刘晓川.电网电压无功监控系统的设计.四川电力技术,2002,(2):3~5.
[29] 盛戈皞,涂光瑜,罗毅,等.基于多Agent的二级电压控制系统.电力系统自动化,2002,(3):20~25.
[30] 李卫东,方自力.面向地区电网的无功/电压优化控制的应用.电力需求侧管理,2001,3(3):44~46.
[31] 唐寅生.电力系统无功电压调控装置控制策略.电力自动化设备,2001,21(6):34~36.
[32] Ching-Tzong Su, Chien-Tung Lin, "A New Fuzzy Control Approach to Voltage Profile Enhancement for Power Systems", IEEE Trans on Power Systems, Vol.11, No.3, August 1996, pp.1654~1659.
[33] Qiang Wu, Dragana H.Popovic, David J.Hill, et al, "Voltage Security Enhancement
via Coordinated Control", IEEE Trans on Power Systems, Vol.16, No.1, Feb 2001,pp.127~135.
[34] 廖亨利.基于分级递阶的地调/中心站模式的无功电压控制.河海大学硕士研究生毕业论文,2003.
[35] 方朝雄,林玉琳,苏毅.福建电网自动电压控制技术实现探讨.福建电力与电工,2002,22(4):21~25.
[36] 靳龙章,丁毓山.电网无功补偿实用技术.北京:中国水利水电出版社.1997.
[37] 刘笙.电气工程基础.北京:科学出版社.2002.
[38] 王勇.无人值班变电站实行无功电压集中控制的探讨.湖北电力,2001,25(5):42~46.
[39] 庄侃沁,李兴源.变电站电压无功控制策略和实现方式.电力系统自动化,2001,25(15):47~50.
[40] 候朝桢.分布式计算机控制系统.北京:北京理工大学出版社.1997.
[41] 白焰,吴鸿,杨国田.分散控制系统与现场总线控制系统.北京:中国电力出版社.2001.
[42] 张鑫.计算机分散控制系统.北京:水利电力出版社.1992.
[43] 刘桥,蒋梁中,谢存禧,等.集散控制系统与现场总线控制系统.现代电子技术,2003,(13):89~92.
[44] 潘世勇,郑萍,李英.集散控制系统(DCS) 的发展及展望.自动化与仪器仪表,2003,(4):4~6.
[45] 俞金寿,何衍庆.集散控制系统原理及应用.北京:化学工业出版社.1995.
[46] 李亚男.电力系统智能无功优化及准实时无功/电压控制的研究.华北电力大学博士生毕业论文.2001.
[47] 王梅义,吴竞昌,蒙定中.大电网系统技术.北京:中国电力出版社.1995.
[48] 李丽英,周庆捷,杨少坤.电力系统无功优化问题的研究综述.电力情报,2002,(3):69~74.
[49] Kenji Iba, "Reactive power Optimization by Genetic Algorithm", IEEE Transcation on Power Systems, Vol.9, No.2, May 1994, pp.685-692.
[50] 张昆,潘云江,柴芬义.遗传算法再电力系统无功优化中的应用综述.电力情报,2001,(1):1~4.
[51] 王辉,楚国良.基于SCADA系统的变电站电压无功综合控制.测控技术,2002,21(5):57~59.