Application of active power sensitivity to frequency and voltage variations on load shedding

Electric Power Systems Research

Volumn 80, Issue 3, 2010, Pages 306-310

  Girgis, Adly A ^a   Mathure, Shruti ^b  

^a CLEMSON UNIVERSITY   (United States)

^b ITC Holdings   (United States)

Author keywords

Frequency estimation; Load shedding; Rate of change of frequency; Rate of change of voltage

Indexed keywords

ACTIVE POWER; BUS SYSTEMS; BUS VOLTAGE; DIGITAL RECORDERS; EMERGENCY CONTROL; EQUIVALENT SYSTEM; FREQUENCY RATE; KALMAN-FILTERING; LARGE DISTURBANCE; LOAD IMBALANCE; LOAD-SHEDDING; OPTIMAL ESTIMATION METHODS; PHASOR MEASUREMENT UNIT; POWER FLOWS; POWER SYSTEMS; RATE OF CHANGE; RATE OF CHANGE OF VOLTAGE; REAL AND REACTIVE POWER; SYSTEM FREQUENCY; SYSTEM VOLTAGE; VOLTAGE DATA; VOLTAGE VARIATION;

DIGITAL DEVICES; ESTIMATION; SENSITIVITY ANALYSIS; UNITS OF MEASUREMENT;

FREQUENCY ESTIMATION;

EID: 75849129346     PISSN: 03787796     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.epsr.2009.09.013     Document Type: Article

References (38)

1. Anderson P.M., and Mirheydar M. An adaptive method for setting underfrequency load shedding relays. IEEE Transactions on Power Systems 7 May (2) (1992) 647-655
2. Fox B., Thompson J.G., and Tindall C.E. Adaptive control of load shedding relays under generation loss conditions. Fourth International Conf. on Developments in Power Protection, April (1989) 259-263
3. Prasetijo D., Lachs W.R., and Sutanto D. A new load shedding scheme for limiting underfrequency. IEEE Transactions on Power Systems 9 August (3) (1994) 1371-1378
4. Jones J.R., and Kirkland W.D. Computer algorithm for selection of frequency relays for load shedding. IEEE Computer Applications in Power 1 January (1) (1988) 21-25
5. You H., Vittal V., and Yang Z. Self-healing in power systems: an approach using islanding and rate of frequency decline-based load shedding. IEEE Transactions on Power Systems 18 February (1) (2003) 174-181
6. Zhang Z., Li K.K., Yin X.G., Zhang Y.H., and Chen D.S. An adaptive microcomputer based load shedding relay. Industry Applications Conference 3, October (1999) 2065-2071
7. Chuvychin V.N., Gurov N.S., Venkata S.S., and Brown R.E. An adaptive approach to load shedding and spinning reserve control during underfrequency conditions. IEEE Transactions on Power Systems 11 November (4) (1996) 1805-1810
8. Larsson M., and Rehtanz C. Predictive frequency stability control based on wide-area phasor measurements. IEEE Power Engineering Society Summer Meeting 1 July (2002) 233-238
9. Taylor C.W. Concepts of undervoltage load shedding for voltage stability. IEEE Transactions on Power Delivery 7 April (2) (1992) 480-488
10. Ladhani S.S., and Rosehart W. Under voltage load shedding for voltage stability overview of concepts and principles. IEEE Power Engineering Society General Meeting 2 June (2004) 1597-1602
11. Van Cutsem T., Moors C., and Lefebvre D. Design of load shedding schemes against voltage instability using combinatorial optimization. IEEE Power Engineering Society Winter Meeting 2 January (2002) 848-853
12. Moors C., Lefebvre D., and Van Cutsem T. Design of an undervoltage load shedding for the Hydro-Quebec system. IEEE Power Engineering Society General Meeting 4 July (2003) 2036
13. Tuan T.Q., Fandino J., Hadjsaid N., Sabonnadiere J.C., and Vu H. Emergency load shedding to avoid risks of voltage instability using indicators. IEEE Transactions on Power Systems 9 February (1) (1994) 341-351
14. Kolluri S., and He T. Design and operating experience with fast acting load shedding scheme in the Entergy System to prevent voltage collapse. IEEE Power Engineering Society General Meeting 2 June (2004) 1625-1630
15. Mechenbier J., Ellis A., Curtner R., and Ranade S. Design of an under voltage load shedding scheme. IEEE Power Engineering Society General Meeting, June (2004) 1612-1619
16. Klaric M., Kuzle I., and Tesnjak S. Undervoltage load shedding using global voltage collapse index. IEEE PES Power Systems Conf. and Exposition 1, October (2004) 453-459
17. Affonso C.M., da Silva L.C.P., Lima F.G.M., and Soares S. MW and MVar management on supply and demand side for meeting voltage stability margin criteria. IEEE Transactions on Power Systems 19 August (3) (2004) 1538-1545
18. Feng Z., Ajjarapu V., and Maratukulam D.J. A practical minimum load shedding strategy to mitigate voltage collapse. IEEE Transactions on Power Systems 13 November (4) (1998) 1285-1290
19. Arnborg S., Andersson G., Hill D.J., and Hiskens I.A. On influence of load modeling for undervoltage load shedding studies. IEEE Transactions on Power Systems 13 May (2) (1998) 395-400
20. Balanathan R., Pahalawaththa N.C., Annakkage U.D., and Sharp P.W. Undervoltage load shedding to avoid voltage instability. IEE Proceedings Generation, Transmission and Distribution 145 March (2) (1998) 175-181
21. Imai S. Undervoltage load shedding improving security as reasonable measure for extreme contingencies. IEEE PES General Meeting. June (2005)
22. Nirenberg S.A., McInnis D.A., and Sparks K.D. Fast acting load shedding. IEEE Transactions on Power Systems 7 May (2) (1992) 873-877
23. Halevi Y., and Kottick D. Optimization of load shedding system. IEEE Transactions on Energy Conversion 8 June (2) (1993) 207-213
24. Xu D., and Girgis A.A. Optimal load shedding with dynamic market modeling. IEEE Power Engineering Society Winter Meeting 2 January (2002) 906-911
25. Wang P., and Billinton R. Optimum load-shedding technique to reduce the total customer interruption cost in a distribution system. IEE Proceeding Generation, Transmission and Distribution 147 January (1) (2000) 51-56
26. Shah S., and Shahidehpour S.M. A heuristic approach to load shedding scheme. IEEE Transactions on Power Systems 4 November (4) (1989) 1421-1429
27. Novosel D., and King R.L. Using artificial neural networks for load shedding to alleviate overloaded lines. IEEE Transactions on Power Delivery 9 January (1) (1994) 425-433
28. Purnomo M.H., Patria C.A., and Purwanto E. Adaptive load shedding of the power system based on neural network. TENCON '02 Proc. of Conf. on Computers, Communications, Control and Power Engineering, October 3 (2002) 1778-1781
29. Tso S.K., Zhu T.X., Zeng Q.Y., and Lo K.L. Evaluation of load shedding to prevent dynamic voltage instability based on extended fuzzy reasoning. IEE Proceedings Generation, Transmission and Distribution 144 March (2) (1997) 81-86
30. Tsai S.S., Zhang L., Phadke A.G., Liu Y., Ingram M.R., Bell S.C., Grant I.S., Bradshaw D.T., Lubkeman D., and Tang L. Study of global frequency dynamic behavior of large power systems. IEEE PES Power Systems Conf. and Exposition 1, October (2004) 328-335
31. Edmund O., Schweitzer III, and Whitehead D.E. Real-world synchrophasor solutions. IEEE PES, 62nd Annual Conference for Protective Relay Engineers (2009) 536-547
32. Phadke A.G., and Kasztenny B. Synchronized phasor and frequency measurement under transient conditions. IEEE Transactions on Power Delivery 24 January (1) (2009) 89-95
33. Premerlani W., Kasztenny B., and Adamiak M. Development and implementation of a synchrophasor estimator capable of measurements under dynamic conditions. IEEE Transactions on Power Delivery 23 January (1) (2008) 109-123
34. Guzman A., Samineni S., and Bryson M. Protective relay synchrophasor measurements during fault conditions. Proceedings of PSC06, Clemson, SC, March (2006)
35. Donolo M., Vankatasubramanian M., Guzman A., and de Villiers F. Monitoring and mitigating the voltage collapse problem in the natal network. IEEE PES, Power Systems Conference and Exposition. March 15-18 (2009)
36. Salcic Z., Li Z., Annakkage U.D., and Pahalawaththa N. A comparison of frequency measurement methods for underfrequency load shedding. Electric Power Systems Research 45 June (3) (1998) 209-219
37. Girgis A.A., and Peterson W.L. Adaptive estimation of power system frequency deviation and its rate of change for calculating sudden power system overloads. IEEE Transactions on Power Delivery 5 April (2) (1990) 585-594
38. Anderson P.M., and Fouad A.A. Power System Control and Stability, IEEE Series on Power Engineering (2003), John Wiley and Sons