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Off-line analysis of the load response during large voltage variations

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Author

Summary, in English

The load response during and after a severe fault is critical for transient stability. This risk increases with the presence of induction motors in the load area. This paper provides analysis of the load voltage characteristic under large voltage variations. Field measurements from a noneffectively earthed system, from phase-to-phase faults at the 50 kV-level in Sweden, have been used. The time-varying load parameters, resistance R(t) and reactance X(t), have been determined from measurements of phase-voltages and currents. Estimates of the active, reactive and apparent power have been calculated. The results show that commonly used models are inaccurate during large voltage variations. The load uncertainty critically increases with the size of the voltage changes since its nonlinear behavior accentuates for more system stressing conditions. This fact is more noticeable for the reactive load characteristic

Publishing year

2004

Language

English

Pages

230-235

Publication/Series

2004 IEEE/PES Transmision and Distribution Conference and Exposition: Latin America

Document type

Conference paper

Publisher

IEEE - Institute of Electrical and Electronics Engineers Inc.

Topic

  • Other Electrical Engineering, Electronic Engineering, Information Engineering

Keywords

  • apparent power
  • reactive power
  • active power
  • currents measurements
  • phase-voltages measurements
  • reactance
  • resistance
  • time-varying load parameters
  • Sweden
  • phase-to-phase faults
  • noneffectively earthed system
  • field measurements
  • load voltage characteristic
  • off-line analysis
  • induction motors
  • power system dynamic stability
  • power system transient stability
  • load modeling
  • 50 kV
  • load uncertainty

Conference name

2004 IEEE/PES Transmission and Distribution Conference and Exposition: Latin America

Conference date

2004-11-08 - 2004-11-11

Conference place

Sao Paulo, Brazil

Status

Published

ISBN/ISSN/Other

  • ISBN: 0-7803-8775-9