Transient algorithm based on earth capacitance estimation for earth-fault detection in medium-voltage networks

M. F. Abdel-Fattah; M. Lehtonen

doi:10.1049/iet-gtd.2011.0329

Transient algorithm based on earth capacitance estimation for earth-fault detection in medium-voltage networks

M. F. Abdel-Fattah^*, M. Lehtonen

^*Corresponding author for this work

Department of Engineering

Research output: Contribution to journal › Article › peer-review

27 Citations (Scopus)

Abstract

This study presents a new earth-fault detection algorithm for both unearthed and compensated neutral medium-voltage networks. The proposed algorithm is based on the transient estimation of the earth capacitance of the background network during the first one-eighth of the power frequency period. The effects of feeder impedances and the Petersen coil (in compensated networks) are compensated using proposed compensation factors. The estimated capacitance accurately indicates if the feeder is faulted or not. The capacitance can be estimated with a maximum error of ±10 %. The algorithm is not reliant on the fault resistance and the faulted feeder parameters; it mainly depends on the background network. The network is simulated using the ATP/EMTP program. Different fault conditions are covered in the simulation process, including different fault inception angles and high fault resistances.

Original language	English
Pages (from-to)	161-166
Number of pages	6
Journal	IET Generation, Transmission and Distribution
Volume	6
Issue number	2
DOIs	https://doi.org/10.1049/iet-gtd.2011.0329
Publication status	Published - Feb 2012

Other keywords

Earth-fault detection
Medium-voltage networks
Power distribution faults
Petersen coil
Power frequency period

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10.1049/iet-gtd.2011.0329

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title = "Transient algorithm based on earth capacitance estimation for earth-fault detection in medium-voltage networks",

abstract = "This study presents a new earth-fault detection algorithm for both unearthed and compensated neutral medium-voltage networks. The proposed algorithm is based on the transient estimation of the earth capacitance of the background network during the first one-eighth of the power frequency period. The effects of feeder impedances and the Petersen coil (in compensated networks) are compensated using proposed compensation factors. The estimated capacitance accurately indicates if the feeder is faulted or not. The capacitance can be estimated with a maximum error of ±10 %. The algorithm is not reliant on the fault resistance and the faulted feeder parameters; it mainly depends on the background network. The network is simulated using the ATP/EMTP program. Different fault conditions are covered in the simulation process, including different fault inception angles and high fault resistances.",

keywords = "Earth-fault detection, Medium-voltage networks, Power distribution faults, Petersen coil, Power frequency period",

author = "Abdel-Fattah, {M. F.} and M. Lehtonen",

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TY - JOUR

T1 - Transient algorithm based on earth capacitance estimation for earth-fault detection in medium-voltage networks

AU - Abdel-Fattah, M. F.

AU - Lehtonen, M.

PY - 2012/2

Y1 - 2012/2

N2 - This study presents a new earth-fault detection algorithm for both unearthed and compensated neutral medium-voltage networks. The proposed algorithm is based on the transient estimation of the earth capacitance of the background network during the first one-eighth of the power frequency period. The effects of feeder impedances and the Petersen coil (in compensated networks) are compensated using proposed compensation factors. The estimated capacitance accurately indicates if the feeder is faulted or not. The capacitance can be estimated with a maximum error of ±10 %. The algorithm is not reliant on the fault resistance and the faulted feeder parameters; it mainly depends on the background network. The network is simulated using the ATP/EMTP program. Different fault conditions are covered in the simulation process, including different fault inception angles and high fault resistances.

AB - This study presents a new earth-fault detection algorithm for both unearthed and compensated neutral medium-voltage networks. The proposed algorithm is based on the transient estimation of the earth capacitance of the background network during the first one-eighth of the power frequency period. The effects of feeder impedances and the Petersen coil (in compensated networks) are compensated using proposed compensation factors. The estimated capacitance accurately indicates if the feeder is faulted or not. The capacitance can be estimated with a maximum error of ±10 %. The algorithm is not reliant on the fault resistance and the faulted feeder parameters; it mainly depends on the background network. The network is simulated using the ATP/EMTP program. Different fault conditions are covered in the simulation process, including different fault inception angles and high fault resistances.

KW - Earth-fault detection

KW - Medium-voltage networks

KW - Power distribution faults

KW - Petersen coil

KW - Power frequency period

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DO - 10.1049/iet-gtd.2011.0329

M3 - Article

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SN - 1751-8687

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JO - IET Generation, Transmission and Distribution

JF - IET Generation, Transmission and Distribution

IS - 2

ER -

Transient algorithm based on earth capacitance estimation for earth-fault detection in medium-voltage networks

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