Calculation of Parameters of Six-Phase Transmission Line Using Carson’s Line Model
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In this paper calculation of parameters of a six-phase transmission line is presented. The calculation is carried out by extending the Carson’s line model in three-phase system. An existing three-phase double-circuit transmission line with two ground wires of Malaysian network, which belongs to TNB (Malaysian power utility), is chosen as a case study. The result of calculation of parameter of the line revealed that the positive sequence inductive reactance is somewhat higher for 6-phase single-circuit line than for a 3-phase double-circuit line.
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L. D. Barthold, and H. C. Barnes, “High-Phase Order Transmission,” CIGRE Study Committee, No.31 Report, London 1972.
J. R. Stewart, and D. D. Wilson, “High Phase Order Transmission-A Feasibility Analysis: Part I-Steady State Considerations,” IEEE Transactions on Power Apparatus and Systems, vol. PAS-97, No.6, pp. 2300-2307, 1978.
J. R. Stewart, and D. D. Wilson, “High Phase Order Transmission-A Feasibility Analysis: Part II-Overvoltages and Insulation Requirements,” IEEE Transactions on Power Apparatus and Systems, vol. PAS-97, No.6, pp. 2308-2317, 1978.
J. R. Stewart and J. S. Grant, “High Phase Order-Ready for Application,” IEEE Transactions on Power Apparatus & Systems, vol. PAS-101, No.6, pp. 1757-1767, 1982.
M. T. Brown, R. V. Rebbapragada, T. F. Dorazio and J. R. Stewart, “Utility System Demonstration of Six-Phase Power Transmission,” Proceedings of the 1991 IEEE Power Engineering Society Transmission and Distribution Conference, pp. 983-990.
J. R. Stewart, L. J. Oppel, G. C. Thomann, T. F. Dorazio and M. T. Brown, “Insulation coordination, environmental and system analysis of existing double circuit line reconfigured to six-phase operation”, Proceedings of IEEE Power Engineering Society Conference on Transmission and Distribution, pp. 978-982, 1991.
J. R. Stewart, L. J. Oppel, G. C. Thomann, T. F. Dorazio and R. V. Rebbapragada, “Transformer Winding Selection Associated with Reconfiguration of Exxisting Double Circuit Line to Six-Phase Operation”, IEEE Transactions on Power Delivery, vol. 7, No. 2, pp. 979-985, 1992.
J. R. Stewart, L. J. Oppel and R. J. Richeda, “Corona and filed effects experience on an operating utility six-phase transmission line”, IEEE Transactions on Power Delivery, Vol. 13, No. 4, pp. 1363-1369, 1998.
T. L. Landers, R. J. Richeda, E. Krizauskas, J. R. Stewart and R. A. Brown, “High Phase Order Economics: Constructing a New Transmission Line”, IEEE Transactions on Power Delivery, Vol. 13, No. 4, pp. 1521-1526, 1998.
N. B. Bhatt, S. S. Venkata, W. C. Guyker, and W.H. Booth, “Six-Phase (Multi-Phase) Power Transmission Systems: Fault Analysis,” IEEE Transactions on Power Apparatus & Systems, vol. PAS-96, No. 3, pp. 758-767, 1977.
S. S. Venkata, W. C. Guyker, W. H. Booth, J. Kondragunta, N. K. Saini, and E. K. Stanek, “138-kV, Six-Phase Transmission: Fault Analysis,” IEEE Transactions on Power Apparatus & Systems, vol. PAS-101, pp. 1203-1218, 1982.
S. P. Nanda, S.N Tiwari, and L. P. Singh, “Fault Analysis of Six-phase System” Electric Power Systems Research, vol. 4, pp. 201-211, 1981.
E. H. Badawy, M. K. El-Sherbiny, and A. A. Ibrahim, A Method of Analyzing Unsymmerical Faults on Six-Phase Power Systems,” IEEE Transactions on Power Delivery, vol. 6, No. 3, pp. 1139-1145, 1991.
S. O. Faried and T. S. Sidhu, “A New Method for Fault Analysis of Six-Phase Transmission Systems”, Electric Power Systems Research, vol. 53, pp.157-163, 2000.
C. M. Portela., and M. C. Tavares, “Six-Phase Transmission Line-Propagation Characteristics and New Three-Phase Representation,” IEEE Transactions on Power Delivery, vol. 8, No. 3, pp. 1470-1476, 1993.
M. C. Tavares, J. Pissolato and C. M. Portela, “New Mode-domain Representation of Transmission Line for Power Systems Studies”, International Symposium on Circuits and Systems (ISCAS’98), vol.III, pp. 501-504, 1998.
M. C. Tavares, J. Pissolato and C. M. Portela, “New Multiphase Mode domain Transmission Line Model”, International Journal of Electrical Power and Energy Systems, vol.21, No. 8, 1999.
J. R., Carson, “Wave Propagation in Overhead Wires with Ground Return,” Bell System Tech, J.5, pp. 539-554, 1926.
P. M., Anderson, Analysis of Faulted Power Systems, Iowa State University Press, 1973.
A. T. Ghainani, “Digital Protection Scheme for Distance Relaying of a Six-Phase Power System,” Ph.D. dissertation, Dept. Elec. Eng., Universiti Teknologi Malaysia (UTM), 2009.
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