Transient Voltage Distribution on the Single Phase Transmission Line under Short Circuit Fault Effect
Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33093
Transient Voltage Distribution on the Single Phase Transmission Line under Short Circuit Fault Effect

Authors: A. Kojah, A. Nacaroğlu

Abstract:

Single phase transmission lines are used to transfer data or energy between two users. Transient conditions such as switching operations and short circuit faults cause the generation of the fluctuation on the waveform to be transmitted. Spatial voltage distribution on the single phase transmission line may change owing to the position and duration of the short circuit fault in the system. In this paper, the state space representation of the single phase transmission line for short circuit fault and for various types of terminations is given. Since the transmission line is modeled in time domain using distributed parametric elements, the mathematical representation of the event is given in state space (time domain) differential equation form. It also makes easy to solve the problem because of the time and space dependent characteristics of the voltage variations on the distributed parametrically modeled transmission line.

Keywords: Energy transmission, transient effects, transmission line, transient voltage, RLC short circuit, single phase.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1315611

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1168

References:


[1] M. S: Mamiş and A. Nacaroğlu, “Transient voltage and current distributions on transmission lines”, IEE Proc. Gener. Trans. Distrib. Vol. 149, No. 6, November 2002.
[2] S Kurokawa, F. N. R. Yamanaka, A. J Prado, “Inclusion of the frequency effect in the lumped parameters transmission line model: State space formulation”Electric power systems, Elsevier, 2009.
[3] E.C.M Costa, S Kurokawa, J Pissolato, AJ Prado, “Efficient procedure to evaluate electromagnetic transients on three-phase transmission lines, IET generation, transmission &.., 2010.
[4] E. C. M. Da Costa, S. Kurokawa, A. J. do Prado, “Proposal of an alternative transmission line model for symmetrical and asymmetrical configurations”, International Journal of Elsevier, 2011.
[5] L. S. Lessa, A. J. Prado, M. L. Bonelli, “Analysis of the modifications in the π circuits for inclusion of frequency influence in transmission line representation”, Power and Energy, ieeexplore.ieee.org, 2011.