• DocumentCode
    1766460
  • Title

    Improved Fault Location Through Analysis of System Parameters During Autoreclose Operations on Transmission Lines

  • Author

    Liang Ji ; Booth, Campbell ; Dysko, Adam ; Kawano, Fumio ; Beaumont, Phil

  • Author_Institution
    Shanghai Univ. of Electr. Power, Shanghai, China
  • Volume
    29
  • Issue
    6
  • fYear
    2014
  • fDate
    Dec. 2014
  • Firstpage
    2430
  • Lastpage
    2438
  • Abstract
    This paper describes a novel single-ended impedance-based fault-location method for transmission lines, which is based upon the analysis of voltage and current during discrete system states that arise during the operation of single- and three-phase autoreclose schemes. A fault-location estimation algorithm, using the data measured during various system states and is capable of locating the fault types involving one fault resistance (i.e., single-line-to-ground fault or line-to-line fault), is developed and presented. The proposed fault-location technique is shown to have high accuracy; results are presented and compared with the well-established Takagi method and the performance of the algorithm is analyzed and discussed. The proposed technique can reduce or negate limitations associated with conventional single-ended methods and can also estimate other factors associated with the fault (e.g., fault resistance and remote source impedance). In addition, it is a potentially economic solution, since it is relatively straightforward to implement on a standard protection relay hardware platform. The proposed method is demonstrated using Electromagnetic Transients Program/Alternate Transients Program simulation models for a variety of different cases. This paper concludes with an overview of ongoing and future work that has the intention of moving the work forward toward implementation within commercially available relay hardware.
  • Keywords
    fault location; power transmission faults; power transmission lines; relay protection; Takagi method; alternate transients program simulation model; autoreclose operations; current analysis; discrete system states; electromagnetic transients program simulation model; fault resistance; fault types; fault-location estimation algorithm; line-to-line fault; relay hardware; single-ended impedance-based fault-location method; single-line-to-ground fault; single-phase autoreclose scheme; system parameter analysis; three-phase autoreclose scheme; transmission lines; voltage analysis; Accuracy; Circuit breakers; Circuit faults; Fault location; Impedance; Power system transients; Resistance; Autoreclose scheme; single-ended fault-location method;
  • fLanguage
    English
  • Journal_Title
    Power Delivery, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0885-8977
  • Type

    jour

  • DOI
    10.1109/TPWRD.2014.2307051
  • Filename
    6919340