基于电压控制区的主导节点电压校正方法
摘要
随着电力网络不断增大,其需要监控的节点越来越多,监控节点电压越限的情况也日益增多,传统的根据运行人员经验来调节的方法已不能满足要求。
因此利用图论的基本理论,借鉴国外电力系统电压三级控制模型的运行经验,首次提出了一种基于电压控制区的主导节点电压校正方法。由于各个电压控制区之间无功电压的弱耦合性,利用多阀值分解的分区算法,实现区域间的解耦,然后根据各个子网络的主导节点的电压进行校正,从而把求解整个网络的问题转化为求解各个小的子网络,降低了网络维数,减少了无功设备控制动作次数,提高了校正成功率,缩短了计算时间。
在实际系统中,从工程应用的角度利用专家系统使分区的结果更加合理,并且在电压校正的时候考虑了不同控制变量的灵敏度不同,使得控制动作更加合理。通过实际运行,效果良好。
With the rapid development of power net, more and more monitored nodes should be control. Accordingly more nodes' voltage is out of delimitation.
Therefor, traditional method using experience of the operator cannot fit for the requirement of power system. Accordingly, using graph theory and operating experience abroad for reference, It firstly brings forward a new method of voltage rectification which based on pilot bus with voltage control area In view of the weak coupling among every VCA (voltage control area),using decomposing method of multi critical value, it realizes the eliminating vinculum of every VCA. And then, the rectification starts by pilot bus voltage of every VCA. So the resolution of whole power net is diverted into calculating smaller sub-net. As a result ,it can reduce the dimension of the formula, advance the success of voltage rectification, and curtail the time for calculation.
In actual system, using expert system every VCA is more reasonable in engineering. When we'll carry out voltage rectification, we consider that different control variables have different sensitivity. So the action of control facilities should be more reasonable. And it runs well in the real system.
因此利用图论的基本理论,借鉴国外电力系统电压三级控制模型的运行经验,首次提出了一种基于电压控制区的主导节点电压校正方法。由于各个电压控制区之间无功电压的弱耦合性,利用多阀值分解的分区算法,实现区域间的解耦,然后根据各个子网络的主导节点的电压进行校正,从而把求解整个网络的问题转化为求解各个小的子网络,降低了网络维数,减少了无功设备控制动作次数,提高了校正成功率,缩短了计算时间。
在实际系统中,从工程应用的角度利用专家系统使分区的结果更加合理,并且在电压校正的时候考虑了不同控制变量的灵敏度不同,使得控制动作更加合理。通过实际运行,效果良好。
With the rapid development of power net, more and more monitored nodes should be control. Accordingly more nodes' voltage is out of delimitation.
Therefor, traditional method using experience of the operator cannot fit for the requirement of power system. Accordingly, using graph theory and operating experience abroad for reference, It firstly brings forward a new method of voltage rectification which based on pilot bus with voltage control area In view of the weak coupling among every VCA (voltage control area),using decomposing method of multi critical value, it realizes the eliminating vinculum of every VCA. And then, the rectification starts by pilot bus voltage of every VCA. So the resolution of whole power net is diverted into calculating smaller sub-net. As a result ,it can reduce the dimension of the formula, advance the success of voltage rectification, and curtail the time for calculation.
In actual system, using expert system every VCA is more reasonable in engineering. When we'll carry out voltage rectification, we consider that different control variables have different sensitivity. So the action of control facilities should be more reasonable. And it runs well in the real system.
引文
[1] 吴安官,倪保珊。电力系统线损。中国电力出版社,1996。
[2] Carson W. Taylor. Power System Voltage Stability. 中国电力出版社,2002。
[3] 李丽英,周庆捷。电力系统无功优化问题研究综述。电力情报,2003(3)
[4] 于建平。电网无功补偿技术及发展动向。供用电,2003 20(3)
[5] 刘志超,陈宏钟,张伟,承文新。基于专家系统的变电站电压无功控制装置。电力系统自动化,2003 27(2)
[6] Paul J P, Leost J Y, Tesseron J M. Survey of the Secondary Voltage Control in France: Present Realization and Investigations. IEEE Trans on Power Systems, 1987, 2(2) :505-511
[7] 刘明波,陈学军,程劲晖。三种无功优化线性规划建模方法的比较。电力系统自动化,1999 11(2)
[8] 刘雁澄。电力系统电压越限直接校正控制研究。大连海事大学学报。1996 22(4)
[9] IEEE Committee Report. Voltage Stability of Power Systems : Analytical Tools, and Industry Experience. IEEE publication 90TH0358-2-PWR.
[10] 段献忠,汪馥英,何仰赞等.负荷模型研究现状综述.电力系统自动化,Vol 18,1994.8
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[16] 范磊,陈珩.二次电压控制研究(二).电力系统自动化 2000 24(12):20-24.
[17] 孙宏斌,张伯明,郭庆来等.基于软分区的全局电压优化控制系统设计.电力系统自动化 2003 27(8)
[18] 王耀瑜,张伯明,孙宏斌,相年德.一种基于专家知识的电力系统电压/无功分级分布式优化控制分区方法.中国电机工程学报 1998 18(3)
[19] Lu F C, Hsu Y Y. Reactive power/voltage control in a distribution substation using dynamic programming. IEEE Proceedings(Part C) 1995 142(6):639-645
[20] 李乃湖等。基于原-对偶内点法的电压无功实时优化控制算法。电力系统自动化,2000,24(5):20-23
[21] Thomsovic K. A Fuzzy Linear Programming Approach to the Reactive Power/Voltage Control Problem. IEEE Trans on Power Systems, 1992,7(1):287-293
[22] Crisan O ,Liu M. Voltage collapse prediction using an improved sensitity approach. Electric Power System Research 1994(28):181-190
[23] 陈金富,彭飞进,王星华,段献忠等.电力系统电压稳定性分析.电力自动化设备 2001 21(11)
[24] 袁骏,段献忠,何仰赞等.电力系统电压稳定灵敏度分析方法综述.电网技术 1997 21(9)
[25] 刘明波,段晓军.一种求解多目标最优潮流的模糊优化算法.电网技术 1999 23(9)
[26] Prabha Kundur. Power System Stability and Control. 中国电力出版社。
[27] Fergiger, J.H.数值方法在工程中的应用.机械工业出版社
[28] 方朝雄,林玉琳,苏毅.福建电网自动电压控制系统技术实现讨论.福建电力与电工 2002 22(4)
[29] 张明龙,王大光,陈树棠等.福建电力系统电压稳定性研究.福建电力与电工 2002 2(4)
[30] 鄢庆锰,张健,王大光.福建500kv电网初期安全稳定控制研究.电力系统自动化 1999 23(8)
[31] 马莉、刘玉田。基于混合搜索算法的电力系统无功优化,‘99全国高校电力系统及其自动化专业学术论文集,1999年,1017-1022.
[32] 周玲,王兴念,丁晓群等,基因/禁忌组合算法在配电网网架优化规划中的应用,电网技术,1999年9月,第23卷,第9期,35-37.
[33] Chih-Wen Liu, Wu-Sun Jwo, Chun-Chang Liu, A Fast Global Optimization Approach to VAR Planning for the Large Scale Electric Power Systems. IEEE Transaction on Power Systems, Vol, 12, No, 1, February 1997.437-442.
[34] Y.Y. Hsu and C.C. Yang, A hybrid artificial neural network-dynamic programming approach for feeder capacitor scheduling IEEE Trans. on Power Systems, Vol. 9, No. 2, May 1994, pp. 1069-1075.
[35] 孙洪波,电力网络规划,重庆大学出版社.
[36] 戴晓亮,无功补偿技术在配电网中的应用.电网技术,1999年6月,第23卷,第6期.11-14.
[37] 周文 贺仁睦等,电力负荷建模问题研究综述,现代电力 1999 2(16)
[38] David J. Kruglinski, Visual C++技术内幕,清华大学出版社 1998
[39] 谢庆国等,Windows作为实时控制环境的探讨,计算机工程与应用 1998年第8期。
[40] 宋震等,实时多任务软件的开发方法及实例,计算机工程与应用 1998年第10期。
[41] 耿青山,Windows的动态数据交换技术,北京航空航天大学出版社 1998
[42] Zaborszky J, Wang Ken-Wen, Huang G M, et al. A Clustered Dynamic Model for a Class of Linear Autonomous Systems Using Simple Enumerative Sorting. IEEE Trans on Circuits and Systems, 1982 CAS-29(11):747-757
[43] Sezer M E, Siljak D D. Nested Decomposition and Clustering of Complex Systems. Automatic, 1986,22(3):321-331
[44] 李彬华,基于伴随网络的电力系统灵敏度分析的新方法,电路与系统学报 1998 3(2)
[45] 李珊君 滕福生,有谐电网无功优化的灵敏度分析法,四川大学学报(工程科学版),2000 32(2)
[2] Carson W. Taylor. Power System Voltage Stability. 中国电力出版社,2002。
[3] 李丽英,周庆捷。电力系统无功优化问题研究综述。电力情报,2003(3)
[4] 于建平。电网无功补偿技术及发展动向。供用电,2003 20(3)
[5] 刘志超,陈宏钟,张伟,承文新。基于专家系统的变电站电压无功控制装置。电力系统自动化,2003 27(2)
[6] Paul J P, Leost J Y, Tesseron J M. Survey of the Secondary Voltage Control in France: Present Realization and Investigations. IEEE Trans on Power Systems, 1987, 2(2) :505-511
[7] 刘明波,陈学军,程劲晖。三种无功优化线性规划建模方法的比较。电力系统自动化,1999 11(2)
[8] 刘雁澄。电力系统电压越限直接校正控制研究。大连海事大学学报。1996 22(4)
[9] IEEE Committee Report. Voltage Stability of Power Systems : Analytical Tools, and Industry Experience. IEEE publication 90TH0358-2-PWR.
[10] 段献忠,汪馥英,何仰赞等.负荷模型研究现状综述.电力系统自动化,Vol 18,1994.8
[11] 李欣然,陈元新,蒋铁铮等.电压稳定研究中的负荷模型及其建模方法.电力系统及其自动化学报 2000 Vol.12,NO 6
[12] Xu W.X. On the planar embedding of linear graphs, Sci, Math 5(1985)
[13] Yao X.M , Yamada and C. L. Liu, Embedding planar graphs in four pages, Comput. Syst. Sci, 38(1989) 36-67
[14] 诸骏伟.电力系统分析(上册).水利电力出版社
[15] R. A. Schlueter, I. Hu, W.M. Chang, J. C. Lo, A. Costi. Methods for determining proximity to voltage collapse. IEEE Transactions on Power Systems, 1991,6(1):285-292.
[16] 范磊,陈珩.二次电压控制研究(二).电力系统自动化 2000 24(12):20-24.
[17] 孙宏斌,张伯明,郭庆来等.基于软分区的全局电压优化控制系统设计.电力系统自动化 2003 27(8)
[18] 王耀瑜,张伯明,孙宏斌,相年德.一种基于专家知识的电力系统电压/无功分级分布式优化控制分区方法.中国电机工程学报 1998 18(3)
[19] Lu F C, Hsu Y Y. Reactive power/voltage control in a distribution substation using dynamic programming. IEEE Proceedings(Part C) 1995 142(6):639-645
[20] 李乃湖等。基于原-对偶内点法的电压无功实时优化控制算法。电力系统自动化,2000,24(5):20-23
[21] Thomsovic K. A Fuzzy Linear Programming Approach to the Reactive Power/Voltage Control Problem. IEEE Trans on Power Systems, 1992,7(1):287-293
[22] Crisan O ,Liu M. Voltage collapse prediction using an improved sensitity approach. Electric Power System Research 1994(28):181-190
[23] 陈金富,彭飞进,王星华,段献忠等.电力系统电压稳定性分析.电力自动化设备 2001 21(11)
[24] 袁骏,段献忠,何仰赞等.电力系统电压稳定灵敏度分析方法综述.电网技术 1997 21(9)
[25] 刘明波,段晓军.一种求解多目标最优潮流的模糊优化算法.电网技术 1999 23(9)
[26] Prabha Kundur. Power System Stability and Control. 中国电力出版社。
[27] Fergiger, J.H.数值方法在工程中的应用.机械工业出版社
[28] 方朝雄,林玉琳,苏毅.福建电网自动电压控制系统技术实现讨论.福建电力与电工 2002 22(4)
[29] 张明龙,王大光,陈树棠等.福建电力系统电压稳定性研究.福建电力与电工 2002 2(4)
[30] 鄢庆锰,张健,王大光.福建500kv电网初期安全稳定控制研究.电力系统自动化 1999 23(8)
[31] 马莉、刘玉田。基于混合搜索算法的电力系统无功优化,‘99全国高校电力系统及其自动化专业学术论文集,1999年,1017-1022.
[32] 周玲,王兴念,丁晓群等,基因/禁忌组合算法在配电网网架优化规划中的应用,电网技术,1999年9月,第23卷,第9期,35-37.
[33] Chih-Wen Liu, Wu-Sun Jwo, Chun-Chang Liu, A Fast Global Optimization Approach to VAR Planning for the Large Scale Electric Power Systems. IEEE Transaction on Power Systems, Vol, 12, No, 1, February 1997.437-442.
[34] Y.Y. Hsu and C.C. Yang, A hybrid artificial neural network-dynamic programming approach for feeder capacitor scheduling IEEE Trans. on Power Systems, Vol. 9, No. 2, May 1994, pp. 1069-1075.
[35] 孙洪波,电力网络规划,重庆大学出版社.
[36] 戴晓亮,无功补偿技术在配电网中的应用.电网技术,1999年6月,第23卷,第6期.11-14.
[37] 周文 贺仁睦等,电力负荷建模问题研究综述,现代电力 1999 2(16)
[38] David J. Kruglinski, Visual C++技术内幕,清华大学出版社 1998
[39] 谢庆国等,Windows作为实时控制环境的探讨,计算机工程与应用 1998年第8期。
[40] 宋震等,实时多任务软件的开发方法及实例,计算机工程与应用 1998年第10期。
[41] 耿青山,Windows的动态数据交换技术,北京航空航天大学出版社 1998
[42] Zaborszky J, Wang Ken-Wen, Huang G M, et al. A Clustered Dynamic Model for a Class of Linear Autonomous Systems Using Simple Enumerative Sorting. IEEE Trans on Circuits and Systems, 1982 CAS-29(11):747-757
[43] Sezer M E, Siljak D D. Nested Decomposition and Clustering of Complex Systems. Automatic, 1986,22(3):321-331
[44] 李彬华,基于伴随网络的电力系统灵敏度分析的新方法,电路与系统学报 1998 3(2)
[45] 李珊君 滕福生,有谐电网无功优化的灵敏度分析法,四川大学学报(工程科学版),2000 32(2)