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Technique for online prediction of voltage collapse

Technique for online prediction of voltage collapse

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A new technique for predicting voltage collapse in power systems in an online mode is described. This technique uses the voltage magnitude and voltage angle information at buses and the network admittance matrix to predict voltage collapse. The performance of the technique was studied for a variety of operating conditions. The technique was tested using different IEEE test systems. The simulations were carried out for steady-state voltage collapses and for dynamic voltage collapses. The results indicate that, for every bus in the system, the proposed technique can predict its proximity to voltage collapse by means of an index. This method is computationally efficient and suitable for real time prediction of voltage collapse. An online implementation of the technique using UCA is also proposed.

Inspec keywords: power system simulation; prediction theory; power system dynamic stability; matrix algebra

Other keywords: IEEE test systems; real time prediction; voltage angle information; dynamic voltage collapse; voltage magnitude; UCA; bus system; online prediction; utility communication architecture; network admittance matrix; steady-state voltage collapse; operating conditions

Subjects: Power engineering computing; Power system control

References

    1. 1)
      • D.G. Hart , D. Uly , V. Gharpure , D. Navosel , D. Karlsson , M. Kaba . PMUs: a new approach to power network monitoring. ABB Review , 58 - 61
    2. 2)
    3. 3)
      • Generic object models for substation and feeder equipment (GOMSFE), version 0.91.
    4. 4)
      • P. Kundur . (1994) Power system stability and control.
    5. 5)
      • http://www.ee.washington.edu/research/pstca/.
    6. 6)
    7. 7)
      • F. Gubina , B. Strmcnik . Voltage collapse proximity index determination using voltage phasors approach. IEEE Trans. Power Syst. , 2 , 778 - 794
    8. 8)
    9. 9)
    10. 10)
    11. 11)
    12. 12)
      • Mansour, Y., James, C.D., Pettet, D.N.: `Voltage stability and security, BC Hyrdro's operating practice', Presented at Int. Symp. on Voltage Stability and Security, 1998, Potosi, Missouri.
    13. 13)
    14. 14)
      • A.G. Phadke . Synchronised phasor measurements in power systems. Comp. Appl. Power , 10 - 15
    15. 15)
      • Begovic, M.: `Voltage collapse mitigation', 93, THO 596-7 PWR, , IEEE Power System Relaying Committee, Working Group K12.
    16. 16)
      • C.W. Taylor . (1994) Power system voltage stability.
    17. 17)
    18. 18)
      • Y.H. Song , I.K. Yu . Dynamic load dispatch with voltage security and environmental constraints. Int. J. Electr. Power Syst. Res. , 1 , 53 - 60
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