Abstract
In Chapter 4 we discussed about various sensitivities that can be used to identify factors that may lead to voltage instability. In general these sensitivities are valid within the narrow range of parameter variation. This chapter provides the methodologies that extend the range of these parameter variations. The system load margin corresponding to any control configuration can be determined without retracing the entire PV curve.
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References
Van Cutsem, T., An approach to corrective control of voltage instability using simulation and sensitivity. IEEE Trans. on power systems, Vol. 10:616–622, 1995
Flueck, A.J., Dondeti, J.R., “A new continuation power flow tool for investigating the nonlinear effects of transmission branch parameter variations, ” IEEE Trans. on power systems, vol.15, no.1, pp.223–227, Feb. 2000
Zhou, Y., Manifold based voltage stability boundary tracing, margin control optimization and time domain simulation, Ph.D. thesis, Iowa State University, Ames, IA, 2001
Dai, R., Rheinboldt, W.C., “On the computation of manifolds of foldpoints for parameter-dependent problems,” SIAM J, Numer. Anal, Vol. 27, no.2, pp. 437–446, 1990
Feng, Z., Ajjarapu, V., Maratukulam, D. J., Identification of voltage collapse through direct equilibrium tracing. IEEE Trans. on Power System, Vol. 15, pp. 342–349, 2000
Van Cutsem, T., Vournas, C., Voltage stability of Electric Power Systems, Kluwer Academic Publishers, Norwell, MA, 2003
http://www.nerc.com/~filez/reports.html . Transmission transfer capability task force, Available transfer capability definitions and determination. North American electric reliability council, Princeton, New Jersey, 1996
Austria, R. R., Chao, X. Y., Reppen, N. D., Welsh, D. E., Integrated approach to transfer limit calculations. IEEE computer applications in power: 48–52, 1995
Wang, G., Voltage Stability Based ATC and Congestion Management for Simultaneous Multi-Area Transactions, M.S. Thesis, July 1998
North American Electric Reliability Council, “Transmission Transfer Capability”, May 1995.
Ilic, M.D., Yoon, Y.T., Zobian, A., “Available transmission capacity (ATC) and its value under open access,” IEEE Trans. on Power System, Vol. 12, no.2, pp. 636–645, 1997
Greene, S., Dobson, I., Alvarado, F.L., “Sensitivity of transfer capability margins with a fast formula,” IEEE Trans. on Power System, Vol. 17, no.1, pp. 34–40, Feb.2002
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(2006). Voltage Stability Margin Boundary Tracing. In: Ajjarapu, V. (eds) Computational Techniques for Voltage Stability Assessment and Control. Power Electronics and Power Systems. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-32935-2_5
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DOI: https://doi.org/10.1007/978-0-387-32935-2_5
Publisher Name: Springer, Boston, MA
Print ISBN: 978-0-387-26080-8
Online ISBN: 978-0-387-32935-2
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