On-site Low Voltage Determination of Zero Sequence Impedances for Power Transformers

Accurate zero-sequence transformer data is important for correct fault analysis and protection settings. Utilities have been forced to approximate zero-sequence impedances for many three-legged core power transformers in service today that did not undergo testing for zero-sequence data at the factor...

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Veröffentlicht in:	IEEE transactions on power delivery 2020-04, Vol.35 (2), p.1-1
Hauptverfasser:	Saeed, Haytham, Kamel, Mariana, Karrar, Abdelrahman, Eltom, Ahmed, Bowman, Mark
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuit faults Coils (windings) Impedance Low voltage Onsite Power transformers short-circuit tests Transformer cores Transformers Utilities Windings zero-sequence impedance
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creator	Saeed, Haytham Kamel, Mariana Karrar, Abdelrahman Eltom, Ahmed Bowman, Mark
description	Accurate zero-sequence transformer data is important for correct fault analysis and protection settings. Utilities have been forced to approximate zero-sequence impedances for many three-legged core power transformers in service today that did not undergo testing for zero-sequence data at the factory before site installation. Where approximation of the zero-sequence impedances from positive sequence data is of insufficient accuracy, on-site tests have been proposed. However, these usually involve measurements from the high-voltage windings, which are either expensive with high test voltages or do not offer sufficient current resolution with low test voltages. This paper proposes new methods for carrying out on-site zero-sequence testing entirely from the lowest voltage winding. Affordable equipment can then be used for the test with minimal switchyard test preparations. Two test configurations are described; a One-Open-Phase test and a Two-Open-Phase test. To validate the method, three typical transformer types are considered; a station auxiliary transformer (SAT), a generation step-up transformer (GSU), and a transmission transformer. The proposed method was tested on actual SAT and GSU units, and simulated for a transmission transformer. All test results validated the method and offered high accuracy.
doi_str_mv	10.1109/TPWRD.2020.2977905
format	Article
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To validate the method, three typical transformer types are considered; a station auxiliary transformer (SAT), a generation step-up transformer (GSU), and a transmission transformer. The proposed method was tested on actual SAT and GSU units, and simulated for a transmission transformer. All test results validated the method and offered high accuracy.</description><identifier>ISSN: 0885-8977</identifier><identifier>EISSN: 1937-4208</identifier><identifier>DOI: 10.1109/TPWRD.2020.2977905</identifier><identifier>CODEN: ITPDE5</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>Circuit faults ; Coils (windings) ; Impedance ; Low voltage ; Onsite ; Power transformers ; short-circuit tests ; Transformer cores ; Transformers ; Utilities ; Windings ; zero-sequence impedance</subject><ispartof>IEEE transactions on power delivery, 2020-04, Vol.35 (2), p.1-1</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Utilities have been forced to approximate zero-sequence impedances for many three-legged core power transformers in service today that did not undergo testing for zero-sequence data at the factory before site installation. Where approximation of the zero-sequence impedances from positive sequence data is of insufficient accuracy, on-site tests have been proposed. However, these usually involve measurements from the high-voltage windings, which are either expensive with high test voltages or do not offer sufficient current resolution with low test voltages. This paper proposes new methods for carrying out on-site zero-sequence testing entirely from the lowest voltage winding. Affordable equipment can then be used for the test with minimal switchyard test preparations. Two test configurations are described; a One-Open-Phase test and a Two-Open-Phase test. To validate the method, three typical transformer types are considered; a station auxiliary transformer (SAT), a generation step-up transformer (GSU), and a transmission transformer. The proposed method was tested on actual SAT and GSU units, and simulated for a transmission transformer. 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Utilities have been forced to approximate zero-sequence impedances for many three-legged core power transformers in service today that did not undergo testing for zero-sequence data at the factory before site installation. Where approximation of the zero-sequence impedances from positive sequence data is of insufficient accuracy, on-site tests have been proposed. However, these usually involve measurements from the high-voltage windings, which are either expensive with high test voltages or do not offer sufficient current resolution with low test voltages. This paper proposes new methods for carrying out on-site zero-sequence testing entirely from the lowest voltage winding. Affordable equipment can then be used for the test with minimal switchyard test preparations. Two test configurations are described; a One-Open-Phase test and a Two-Open-Phase test. 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subjects	Circuit faults Coils (windings) Impedance Low voltage Onsite Power transformers short-circuit tests Transformer cores Transformers Utilities Windings zero-sequence impedance
title	On-site Low Voltage Determination of Zero Sequence Impedances for Power Transformers
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