Paper Titles

Application of Chaotic Univariate Marginal Distribution Algorithm to Economic Dispatch Control of Cascade Hydropower Plants
p.1326

Applications of Lagrange-Quasi-Newton Method in Power System Steady-State Security Region
p.1332

ATC Enhancement with SVC and TCSC Using PTDF Based Approach in Deregulated Electricity Markets
p.1337

Design and Test of Saturable Reactor
p.1342

Discussion on the Steady Stability Reserving Coefficient in the Multigenerators System
p.1348

Grounding System Analysis and Design Considerations for Large Hydroelectric Power Plant
p.1359

High Precision Measuring Technology and Algorithm on Acquisition Terminal of Power Load Control and Management System
p.1367

Implementation of Automation Determination of Training Score for Dispatcher Training Simulator
p.1371

Improvement of Thevenin Equivalent Parameters and Computations
p.1376

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 516-517Discussion on the Steady Stability Reserving...

Discussion on the Steady Stability Reserving Coefficient in the Multigenerators System

Article Preview

Abstract:

The detailed description about the OMIS (One Machine-Infinite Bus) and the SLIS(Single Load -Infinite Bus)will be done in this paper and the detailed introduction of these two concepts(the coherent generators and the coherent buses) and their aggregation. Based on the new OMIS model, the new methods of identifying the coherent generators and aggregating the coherent generators will be advanced. Based on the coherent generators, the new algorithm for the reserving coefficient of the steady angular stability will comes into being. Based on the new SLIS model, the new methods of identifying the coherent buses and aggregating the coherent buses will be put forward. Based on the coherent buses, the new algorithm for the reserving coefficient of the steady voltage stability will be brought about. A real example is used to validate the idea in this paper. A discussion on the angular references between the online data and the offline data will be done when the phases from the WAMS are used. The steady stability of two generators model will be acquired.

You might also be interested in these eBooks

Electrical Power & Energy Systems

Info:

Periodical:

Advanced Materials Research (Volumes 516-517)

Pages:

1348-1358

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.516-517.1348

Citation:

Cite this paper

Online since:

May 2012

Authors:

Chang You Yan

Keywords:

Angular Steady Stability Reserving Coefficient, Coherent Buses, Coherent Generators, Coherent Grouping, Steady Stability Reserving Coefficient, Voltage Steady Stability Reserving Coefficient

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Guangqi Li. Power system transient analysis. China electrical power press.2000. P176.

[2] Yixin Ni. Power system dynamic theory and analysis.Tsinghua university press. 2002. P216.

[3] Yutian Liu, Zhaowen Luan. Complementary method for small signal stability in power system. 1998, 28(5):413-418.

[4] Jinquan Zhao. Hsiao-Dong Chiang, Boming Zhang.Approach for Identifycation and computation of static voltage stability critical point. Automation of Electric Power Systems. 2004, 28(12):28-34.

DOI: 10.1109/pes.2006.1709314

[5] Jin-quan Zhao, CHIANG Hsiao-Dong, Boming ZHANG. An On-line enhancement control algorithm for static stability in power system. Proceedings of the CSEE. 2005, 25(8):7-12.

[6] Haozhong Cheng, Zhangchao Chen. A Review of static state voltage stability researches via the load flow equations.Journal of SHANGHAI JIAOTONG University. 1996,30(9)：69-74.

[7] Jiann-Fah Chen, Wei-Ming Wang. Steady-state stability criteria and uniqueness of load flow solutions for radial distribution system.Electric Power Systems Research. 1993,28:81-87.

DOI: 10.1016/0378-7796(93)90082-p

[8] Yongqing Liu, Zheng Yan YiXinNi, FelixFWu. A study on mechanism Of voltage collapse based on the theory of transversality of equilibriumpoints.Electric Power Systems Research. 2004,70:163-171.

DOI: 10.1016/j.epsr.2003.12.004

[9] Jun WEN, Tianqi LIU, Xiing-yuan LI, JingREN. On-line Identification of Coherent Generator Using Optimized LS-SVM. Proceedings of the CSEE. 2008, 28(25):80-85.

[10] Kun-peng SHI, Gang MU, Ting LI, Lu LV. Empirical Mode Decomposition based clusteringtree method and its application in coherency identification of generating sets. Power System Technology. 2007,31(22):21-25.

[11] Jing-ping YANG, Zheng XU. Application of dynamic equivalence based on identification of coherent generator group in engineering. Power System Technology. 2005, 29(17):68-71.

[12] Yongzheng Sui, Hui Sun, Mingzhe Xu, Zhang Yuxia. Practical Algorithm Study on Transient Stability Analysis of Complex Power Systems.Journal Of Northeast China institute Of Electric Power Engineering. 1998,18 (3) :33-38.

[13] Jian-bing XU, Yu-sheng XUE, Qi-ping ZHANG, De-xing WANG.A Critical Review on Coherency-based Dynamic EquiValences. Automation of Electric Power Systems. .2005,29 (14) :91-95.

[14] Craig Anthony Aumuller, Tapan Kumar Saha. Determination of Power System Coherent bus groups by novel sensitivity-based method for voltage Stabilityassessment. IEEE TRANSACT -ION ON POWER SYSTEM.Vol.18. No.3, August,2003: 1157-1164

DOI: 10.1109/tpwrs.2003.814886

[15] Gang Wei. Power system basic analysis. China electrical power press.2007.7.P269

[16] Xinzheng Liu, Shaoping Su, Lin Gao. Electromechanics Theory.Electronic Industry Press.2006,5.P199.

[17] Shizhang Xu. Electromechanics.China machine press.1993. P329

[18] PRABHA KUNDUR. Power system stability and control. ChinaElectrical Power Press. 2002.P19

[19] VERBIC G, GUBINA F. A New Concept of Voltage-collapse Protection Based on Local Phasor. IEEE Trans on Power Delivery,2004,19(2): 576-581.

DOI: 10.1109/tpwrd.2004.824763

[20] Y.-H Moon,H.-S Ryu, and J-G. Lee. Uniqueness of static voltage stability analysis in power systems. In Proc. IEEE Power Eng. Soc Summer meeting. Vancouver,BC, Canada,2001.

DOI: 10.1109/pess.2001.970305

[21] Chang-you YAN, Jianfei LIU, Qixun YANG. Voltage Stability Index Based On Local Vectors. Automation of Electric Power System. 2006,30(5):29-32. Appendix In [1] and [2], the steady stability were studied.The model of two machines is as fig.7. The criterion of this system is detailedly deduced. Fig.7 The Two-Machine Model for Angular Steady Stability Analysis In fig.7, , are the inner potential of the two generators. And ,are the terminal voltages. and are the inner impedencs, () is the connection impedence's amplitude between two generators., , are the loads, ,are the outputted active power from the two generators. From [2], an equation is acquired as (23). (23) In (23), . In the two machines model in fig.7, if the interconnection impedence () is ignored, equals to 0. The equation (23) ban be simplified to the equation (24). (24) In doc.[2], the steady stability criterion of two machines model as fig.7 is as (25). (25) In (25), , are the inertia time constant of the two machines in fig.7. if the equation (24) shall be substituted into the equation (25), the equation (26) can be acquired. (26) In (26), , and are all positive real number. At last, the equation (26) can be simplified as (27). (27)