Analysis of Transient Stability Enhancement of LV-Connected Induction Microgenerators by Using Resistive-Type Fault Current Limiters

Analysis of Transient Stability Enhancement of LV-Connected Induction Microgenerators by Using Resistive-Type Fault Current Limiters

In this paper an analytical method by which the transient stability of an induction machine is maintained regardless of the fault clearance times is introduced. The method can be applied in order to improve the transient stability of a large penetration of low-voltage (LV) connected microgeneration...

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Bibliographic Details
Published in:IEEE transactions on power systems Vol. 25; no. 2; pp. 885 - 893
Main Authors: Emhemed, Abdullah Swissi, Tumilty, Ryan M, Singh, Nand K, Burt, Graeme M, McDonald, James R
Format: Journal Article
Language:English
Published: New York IEEE 01-05-2010
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Current limiters
Current measurement
Distribution networks
Fault current limiters
Faults
Induction generators
Induction machines
Load modeling
Mathematical analysis
Penetration
Residential
single-phase induction generators
Stability analysis
Studies
Superconductivity
Transient analysis
Transient stability
Turbines
Velocity measurement
Voltage
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Summary:In this paper an analytical method by which the transient stability of an induction machine is maintained regardless of the fault clearance times is introduced. The method can be applied in order to improve the transient stability of a large penetration of low-voltage (LV) connected microgeneration that can be directly interfaced by single-phase induction generators within domestic premises. The analysis investigates the effectiveness of using resistive-type superconducting fault current limiters (RSFCLs) as remedial measures to prevent the microgenerators from reaching their speed limits during remote faults, and hence improving their transient stability. This will prevent unnecessary disconnection of a large penetration of LV-connected microgeneration and thus avoiding the sudden appearance of hidden loads, and unbalanced voltage conditions. The minimum required value of a resistive element of RSFCL for mitigating the transient instability phenomena of LV-connected microgeneration based on the system and connected machine parameters is determined. The analytical method has been validated by conducting informative transient studies by using detailed models of a small microwind turbine with constant mechanical output interfaced directly within residential dwellings by a single-phase induction generator, a transient model of resistive superconducting fault current limiter (RSFCL), and a typical suburban distribution network with residential loads. All the models are developed in the time-domain PSCAD/EMTDC dynamic simulation.
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ISSN:0885-8950
1558-0679
DOI:10.1109/TPWRS.2009.2034859