• DocumentCode
    1759724
  • Title

    Damaging Open-Phase Overvoltage Disturbance on a Shunt-Compensated 500-kV Line Initiated by Unintended Trip

  • Author

    Nagpal, Mukesh ; Martinich, Terrence G. ; Bimbhra, Amit ; Sydor, Dave

  • Author_Institution
    BC Hydro, Burnaby, BC, Canada
  • Volume
    30
  • Issue
    1
  • fYear
    2015
  • fDate
    Feb. 2015
  • Firstpage
    412
  • Lastpage
    419
  • Abstract
    Shunt reactors are applied to long extra high-voltage (HV) transmission lines to compensate for their natural capacitance which otherwise could cause overvoltages under light load conditions. However, when the level of compensation approaches around 65% or higher, these reactors themselves can, due to contingency, become the cause of hazardous overvoltages during unbalanced open-phase conditions on the healthy line. This paper reports on an overvoltage incident that occurred on a 500-kV 72% shunt-compensated line in the BC Hydro system. The overvoltage occurred when one of the breaker poles failed to interrupt the current following an inadvertent three-phase trip of the healthy line. The uninterrupted current kept one phase energized for an extended time. Temporary overvoltages during this condition and restrike transients eventually led to surge arrester failures at both terminals. Analysis of voltage and current recordings provided useful insight into the mechanism responsible for the damaging overvoltages as well as the protection and control responses during the disturbance. The intent of this paper is to share the knowledge gained from analyses of the recorded waveforms with other utilities either having or planning for highly compensated lines.
  • Keywords
    overvoltage; overvoltage protection; power transmission lines; reactors (electric); restriking voltage; breaker poles; extra high-voltage transmission lines; hazardous overvoltages; open-phase overvoltage disturbance; restrike transients; shunt reactors; shunt-compensated line; surge arrester failures; temporary overvoltages; unintended trip; voltage 500 kV; Arresters; Inductors; Resonant frequency; Shunts (electrical); Surges; Wireless sensor networks; Ferranti effect; open phase; series resonance; shunt-compensated lines; transmission-line overvoltages;
  • fLanguage
    English
  • Journal_Title
    Power Delivery, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0885-8977
  • Type

    jour

  • DOI
    10.1109/TPWRD.2014.2360144
  • Filename
    6915737