Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics

Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics

Differential protection is the unit protection system which is applied to protect a particular unit of power systems. Unit is known as zone in protection terminology which is equivalent to simple electrical node. In recent time, low impedance current differential protection schemes based on percenta...

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Bibliographic Details
Main Author: Hossain, Monir
Format: Others
Published: ScholarWorks@UNO 2016
Subjects:
Differential Protection
CT Saturation
Internal Fault
External Fault
Fault Discrimination
Relay.
Power and Energy
Online Access:http://scholarworks.uno.edu/td/2263
http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=3373&context=td
id ndltd-uno.edu-oai-scholarworks.uno.edu-td-3373
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spelling ndltd-uno.edu-oai-scholarworks.uno.edu-td-33732016-12-28T05:08:53Z Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics Hossain, Monir Differential protection is the unit protection system which is applied to protect a particular unit of power systems. Unit is known as zone in protection terminology which is equivalent to simple electrical node. In recent time, low impedance current differential protection schemes based on percentage restrained characteristics are widely used in power systems to protect busbar systems. The main application issue of these schemes is mis-operation due to current transformer (CT) saturation during close-in external faults. Researchers have suggested various solution of this problem; however, individually they are not sufficient to puzzle out all mis-operational scenarios. This thesis presents a new bus differential algorithm by defining alternative partial operating current characteristics of a differential protection zone and investigating its performance for all practical bus faults. Mathematical model of partial operating current and operating principle of the proposed bus differential relay are described in details. A CT saturation detection algorithm which includes fast and late CT saturation detection techniques is incorporated in relay design to increase the sensitivity of partial operating current based internal-external fault discriminator for high impedance internal faults. Performance of the proposed relay is validated by an extensive test considering all possible fault scenarios. 2016-12-16T08:00:00Z text application/pdf http://scholarworks.uno.edu/td/2263 http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=3373&context=td University of New Orleans Theses and Dissertations ScholarWorks@UNO Differential Protection CT Saturation Internal Fault External Fault Fault Discrimination Relay. Power and Energy
collection NDLTD
format Others
sources NDLTD
topic Differential Protection
CT Saturation
Internal Fault
External Fault
Fault Discrimination
Relay.
Power and Energy
spellingShingle Differential Protection
CT Saturation
Internal Fault
External Fault
Fault Discrimination
Relay.
Power and Energy
Hossain, Monir
Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics
description Differential protection is the unit protection system which is applied to protect a particular unit of power systems. Unit is known as zone in protection terminology which is equivalent to simple electrical node. In recent time, low impedance current differential protection schemes based on percentage restrained characteristics are widely used in power systems to protect busbar systems. The main application issue of these schemes is mis-operation due to current transformer (CT) saturation during close-in external faults. Researchers have suggested various solution of this problem; however, individually they are not sufficient to puzzle out all mis-operational scenarios. This thesis presents a new bus differential algorithm by defining alternative partial operating current characteristics of a differential protection zone and investigating its performance for all practical bus faults. Mathematical model of partial operating current and operating principle of the proposed bus differential relay are described in details. A CT saturation detection algorithm which includes fast and late CT saturation detection techniques is incorporated in relay design to increase the sensitivity of partial operating current based internal-external fault discriminator for high impedance internal faults. Performance of the proposed relay is validated by an extensive test considering all possible fault scenarios.
author Hossain, Monir
author_facet Hossain, Monir
author_sort Hossain, Monir
title Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics
title_short Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics
title_full Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics
title_fullStr Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics
title_full_unstemmed Fault Discrimination Algorithm for Busbar Differential Protection Relaying Using Partial Operating Current Characteristics
title_sort fault discrimination algorithm for busbar differential protection relaying using partial operating current characteristics
publisher ScholarWorks@UNO
publishDate 2016
url http://scholarworks.uno.edu/td/2263
http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=3373&context=td
work_keys_str_mv AT hossainmonir faultdiscriminationalgorithmforbusbardifferentialprotectionrelayingusingpartialoperatingcurrentcharacteristics
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