TRANSMISSION LINE LOADING MARGIN EVALUATION

K. Daro j and B. Eua-arporn

References

1. [1] V. Ajjarapu & B. Lee, Bibliography on voltage stability, IEEETransactions on Power Systems, 13 (1), 1998, 115–125. doi:10.1109/59.651622
2. [2] Resource for understanding the blackout of 2003 [Online],available at: http://www.pserc.wisc.edu/Resources.htm.
3. [3] V. Ajjarapu & C. Christy, Continuation power flow: A toolfor steady state voltage analysis, IEEE Transactions on PowerSystems, 7 (1), 1992, 416–423. doi:10.1109/59.141737
4. [4] L.A. Li Zarate & C.A. Castro, Fast method for computing powersystem security margins to voltage collapse, IEE Proceedings –Generation, Transmission and Distribution, 151 (1), 2004, 19–26. doi:10.1049/ip-gtd:20040058
5. [5] R.S. Tare & P.R. Bijwe, Look-ahead approach to power sys-tem loadability enhancement, IEE Proceedings — Generation,Transmission and Distribution, 144 (4), 1997, 357–362. doi:10.1049/ip-gtd:19971099
6. [6] D.A. Alves, L.C.P. da Silva, C.A. Castro, & V.F. da Costa,Continuation fast decoupled power flow with secant predictor,IEEE Transactions on Power Systems, 18 (3), 2003, 1078–1085. doi:10.1109/TPWRS.2003.814892
7. [7] I. Dobson & L. Lu, Computing an optimum direction in controlspace to avoid saddle node bifurcation and voltage collapsein electric power systems, IEEE Transactions on AutomaticControl, 37 (10), 1992, 1616–1620. doi:10.1109/9.256397
8. [8] I. Dobson & L. Lu, New method for computing a closest saddlenode bifurcation and worst case load power margin for voltagecollapse, IEEE Transactions on Power Systems, 8 (3), 1993,905–913. doi:10.1109/59.260912
9. [9] F. Alverado, I. Dobson, & Y. Hu, Computation of closestbifurcations in power systems, IEEE Transactions on PowerSystems, 9 (2), 1994, 918–928. doi:10.1109/59.317655
10. [10] C.A. Canizares, Calculating optimal system parameters to max-imize the distance to saddle-node bifurcations, IEEE Trans-actions on Circuits and Systems I: Fundamental Theory andApplications, 45 (3), 1998, 225–236. doi:10.1109/81.662696
11. [11] P. Kunder, Power system stability and control (Singapore:McGraw-Hill, 1994).
12. [12] C.A. Canizares, A.C.Z. de Souza, & V.H. Quintana, Compar-ison of performance indices for detection proximity to voltagecollapse, IEEE Transactions on Power Systems, 11 (3), 1996,1441–1450. doi:10.1109/59.535685
13. [13] M.H. Haque, Use of V–I characteristic as a tool to assessthe static voltage stability limit of a power system, IEEProceedings – Generation, Transmission and Distribution,151 (1), 2004, 1–7. doi:10.1049/ip-gtd:20040057
14. [14] K. Vu, M.M. Begovic, D. Novosel, & M.M. Saha, Use oflocal measurements to estimate voltage stability–margin, IEEETransactions on Power Systems, 14 (3), 1999, 1029–1035. doi:10.1109/59.780916
15. [15] S.A. Soliman, H.K. Temraz, & S.M. El-Kohdary, Power sys-tem voltage stability margin identification using local measure-ments, Power Engineering Conf. on Large Engineering Sys-tem, The Delta Centre-Wile Hotel Montreal, Quebec, Canada,2003, 100–104.
16. [16] M.H. Haque, On-line monitoring of maximum permissibleloading of a power system within voltage stability limit, IEEProceedings – Generation, Transmission and Distribution,150 (1), 2003, 107–112. doi:10.1049/ip-gtd:20020682
17. [17] M.H. Haque, Determination of steady-state voltage stabilitylimit using P–Q Curve, IEEE Power Engineering Review,22 (4), April 2002, 71–72. doi:10.1109/39.994851
18. [18] A.J. Wood & B.F. Wollenberg, Power Generation Operationand Control, Second Edition (Singapore: John Wiley & SonsInc, 1996).62

Important Links:

• Abstract
• DOI: 10.2316/Journal.203.2008.1.203-3809
• From Journal (203) International Journal of Power and Energy Systems - 2008

Go Back