• DocumentCode
    781974
  • Title

    Modelling and mapping ferroresonant states in series compensated distribution and subtransmission lines

  • Author

    Barr, Robert A. ; Platt, Don

  • Author_Institution
    Electr. Power Consulting Pty. Ltd., Culburra Beach, NSW, Australia
  • Volume
    11
  • Issue
    2
  • fYear
    1996
  • fDate
    4/1/1996 12:00:00 AM
  • Firstpage
    931
  • Lastpage
    939
  • Abstract
    Series capacitors can increase the power carrying capacity of subtransmission and distribution lines by reducing voltage regulation. The potential exists in selected locations for utilities to both improve the customer quality of supply and increase the supply capacity. The possibility of ferroresonance and effective countermeasures to ferroresonance are important issues that need to be carefully considered at the design stage. Other design issues are capacitor location, ohmic reactive value, transient behaviour, short circuit withstand and capacitor protection. Ferroresonance can cause severe overvoltages and heavy currents resulting in damage to power system equipment and customer installations. This paper describes a ferroresonance model incorporating both time domain and frequency domain techniques. The ferroresonance model is used to map the possible ferroresonant states. A small scale laboratory nonlinear ferroresonant circuit was constructed with the experimental results comparing favourably with the predicted model behaviour. For series compensated lines and other circuit arrangements, the ferroresonance model allows the prediction of ferroresonant states and the examination of countermeasures
  • Keywords
    distribution networks; ferroresonant circuits; frequency-domain analysis; overvoltage; power supply quality; power system transients; power transmission lines; short-circuit currents; time-domain analysis; capacitor location; capacitor protection; customer supply quality; ferroresonant states mapping; ferroresonant states modelling; frequency domain techniques; heavy currents; nonlinear ferroresonant circuit; ohmic reactive value; overvoltages; power carrying capacity; power system equipment damage; series compensated distribution lines; series compensated subtransmission lines; short circuit withstand; time domain techniques; transient behaviour; voltage regulation reduction; Capacitors; Circuits; Ferroresonance; Frequency domain analysis; Power system modeling; Power system protection; Power system transients; Predictive models; Surge protection; Voltage control;
  • fLanguage
    English
  • Journal_Title
    Power Delivery, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0885-8977
  • Type

    jour

  • DOI
    10.1109/61.489354
  • Filename
    489354