Dual function ferroresonance and fault current limiter based on DC reactor

This study presents a novel DC reactor-based ferroresonance and fault current limiter (DRFFCL) for stabilising ferroresonance oscillations of potential transformer (PT) in 33 kV distribution network and decreasing the amplitude of the fault current to an acceptable level. At first, the ferroresonanc...

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Published inIET generation, transmission & distribution Vol. 10; no. 9; pp. 2058 - 2065
Main Authors Radmanesh, Hamid, Heidary, Amir, Fathi, Seyed Hamid, Babamalek Gharehpetian, Gevork
Format Journal Article
LanguageEnglish
Published The Institution of Engineering and Technology 09.06.2016
Subjects
Amplitudes
control engineering computing
DC reactor
DC reactor‐based ferroresonance
Direct current
distribution network
DRFFCL
dual function ferroresonance
fault current limiter
fault current limiters
Faults
Ferroresonance
ferroresonance oscillation stabilisation
ferroresonance overvoltage
ferroresonant circuits
Matlab
MATLAB software
Oscillations
Overvoltage
potential transformer
potential transformers
power distribution control
power distribution faults
power engineering computing
reactors (electric)
scaled‐down laboratory prototype
short‐circuit faults occurrence
Simulation
voltage 33 kV
power distribution control
DC reactor-based ferroresonance
ferroresonance
fault current limiters
scaled-down laboratory prototype
voltage 33 kV
MATLAB software
power distribution faults
power engineering computing
reactors (electric)
overvoltage
ferroresonance oscillation stabilisation
potential transformer
ferroresonance overvoltage
potential transformers
DC reactor
distribution network
ferroresonant circuits
dual function ferroresonance
DRFFCL
short-circuit faults occurrence
control engineering computing
fault current limiter
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Abstract This study presents a novel DC reactor-based ferroresonance and fault current limiter (DRFFCL) for stabilising ferroresonance oscillations of potential transformer (PT) in 33 kV distribution network and decreasing the amplitude of the fault current to an acceptable level. At first, the ferroresonance overvoltage is introduced and various types of overvoltage in the PT are studied. Then, the effects of the suggested DRFFCL on these oscillations are investigated. It is shown that the proposed DRFFCL not only can control the ferroresonance oscillations, but also can decrease the fault current amplitude in the case of short-circuit faults occurrence. The DRFFCL performance is simulated using MATLAB software and a scaled-down laboratory prototype is implemented and tested for the simulation results validation. The measured results are in agreement with the simulation results and clearly show the ability of the DRFFCL for controlling both the ferroresonance overvoltage and fault current.
AbstractList This study presents a novel DC reactor-based ferroresonance and fault current limiter (DRFFCL) for stabilising ferroresonance oscillations of potential transformer (PT) in 33 kV distribution network and decreasing the amplitude of the fault current to an acceptable level. At first, the ferroresonance overvoltage is introduced and various types of overvoltage in the PT are studied. Then, the effects of the suggested DRFFCL on these oscillations are investigated. It is shown that the proposed DRFFCL not only can control the ferroresonance oscillations, but also can decrease the fault current amplitude in the case of short-circuit faults occurrence. The DRFFCL performance is simulated using MATLAB software and a scaled-down laboratory prototype is implemented and tested for the simulation results validation. The measured results are in agreement with the simulation results and clearly show the ability of the DRFFCL for controlling both the ferroresonance overvoltage and fault current.
This study presents a novel DC reactor‐based ferroresonance and fault current limiter (DRFFCL) for stabilising ferroresonance oscillations of potential transformer (PT) in 33 kV distribution network and decreasing the amplitude of the fault current to an acceptable level. At first, the ferroresonance overvoltage is introduced and various types of overvoltage in the PT are studied. Then, the effects of the suggested DRFFCL on these oscillations are investigated. It is shown that the proposed DRFFCL not only can control the ferroresonance oscillations, but also can decrease the fault current amplitude in the case of short‐circuit faults occurrence. The DRFFCL performance is simulated using MATLAB software and a scaled‐down laboratory prototype is implemented and tested for the simulation results validation. The measured results are in agreement with the simulation results and clearly show the ability of the DRFFCL for controlling both the ferroresonance overvoltage and fault current.
Author Babamalek Gharehpetian, Gevork
Heidary, Amir
Fathi, Seyed Hamid
Radmanesh, Hamid
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  surname: Radmanesh
  fullname: Radmanesh, Hamid
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  givenname: Seyed Hamid
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  fullname: Fathi, Seyed Hamid
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  givenname: Gevork
  surname: Babamalek Gharehpetian
  fullname: Babamalek Gharehpetian, Gevork
  organization: 2Electrical Engineering Department, Amirkabir University of Technology, Tehran, Iran
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Issue 9
Keywords power distribution control
DC reactor-based ferroresonance
ferroresonance
fault current limiters
scaled-down laboratory prototype
voltage 33 kV
MATLAB software
power distribution faults
power engineering computing
reactors (electric)
overvoltage
ferroresonance oscillation stabilisation
potential transformer
ferroresonance overvoltage
potential transformers
DC reactor
distribution network
ferroresonant circuits
dual function ferroresonance
DRFFCL
short-circuit faults occurrence
control engineering computing
fault current limiter
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Snippet This study presents a novel DC reactor-based ferroresonance and fault current limiter (DRFFCL) for stabilising ferroresonance oscillations of potential...
This study presents a novel DC reactor‐based ferroresonance and fault current limiter (DRFFCL) for stabilising ferroresonance oscillations of potential...
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SubjectTerms Amplitudes
control engineering computing
DC reactor
DC reactor‐based ferroresonance
Direct current
distribution network
DRFFCL
dual function ferroresonance
fault current limiter
fault current limiters
Faults
Ferroresonance
ferroresonance oscillation stabilisation
ferroresonance overvoltage
ferroresonant circuits
Matlab
MATLAB software
Oscillations
Overvoltage
potential transformer
potential transformers
power distribution control
power distribution faults
power engineering computing
reactors (electric)
scaled‐down laboratory prototype
short‐circuit faults occurrence
Simulation
voltage 33 kV
Title Dual function ferroresonance and fault current limiter based on DC reactor
URI http://digital-library.theiet.org/content/journals/10.1049/iet-gtd.2015.1032
https://onlinelibrary.wiley.com/doi/abs/10.1049%2Fiet-gtd.2015.1032
https://search.proquest.com/docview/1825543120
Volume 10
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