Field testing, modelling and analysis of ferroresonance in a high voltage power system

Catastrophic equipment failures continue to occur today due to ferroresonance even though this phenomenon has been extensively studied over the past ninety years. This thesis is concerned with the tasks of defining where ferroresonance problems can exist in a high voltage power system, of determinin...

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Main Author: Jacobson, David
Format: Others
Language:en
en_US
Published: 2007
Online Access:http://hdl.handle.net/1993/1866
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-MWU.anitoba.ca-dspace#1993-18662013-01-11T13:31:11ZJacobson, David2007-05-18T20:01:28Z2007-05-18T20:01:28Z2000-08-01T00:00:00Zhttp://hdl.handle.net/1993/1866Catastrophic equipment failures continue to occur today due to ferroresonance even though this phenomenon has been extensively studied over the past ninety years. This thesis is concerned with the tasks of defining where ferroresonance problems can exist in a high voltage power system, of determining methods for displaying safety margins between nonferroresonant and ferroresonant operating regions and improving upon existing ferroresonance simulation techniques. Several different ferroresonant circuits have been modelled and compared with field measurements taken on the Manitoba Hydro 230-kV power system or compared with laboratory measurements including: a de-energized transformer connected to the grading capacitance of an open circuit breaker, a transformer-terminated doublecircuit transmission line and a coupling capacitor voltage transformer. In a high voltage power system, the most prevalent ferroresonance circuit occurs between a de-energized transformer and the grading capacitor of an open circuit breaker. Experimental work has shown that losses in a pr ctical transformer are much larger during ferroresonance oscillation modes than predicted by conventional modelling techniques. A simple switched eddy-current loss resistor is found able to model the losses during subharmonic and fundamental frequency ferroresonance in a laboratory transformer. A major contribution of this work is a new method of visualizing the margin between nonferroresonant and ferroresonant states in a transformer/grading capacitor circuit has been developed. A general set of averaged equations is derived that permit the analysis of an nth order polynomial approximation of the magnetization curve. The location of the saddle points and slope of the stable manifold through the saddle points can be determined for a particular transformer under study. The Limacon of Pascal is found to be a good approximation to the geometric shape of the basin of attraction of the period-1 ferroresonant attractor and can be calculated using the saddle point location and slope of the stable manifold. The critical parameters resulting in a crossing of the separatrix can then be found by iteratively solving the Limacon equations. The new method will assist utility engineers in quickly assessing the potential risk of ferroresonance in their power system.14560615 bytes184 bytesapplication/pdftext/plainenen_USField testing, modelling and analysis of ferroresonance in a high voltage power systemElectrical and Computer EngineeringPh.D.
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language en
en_US
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description Catastrophic equipment failures continue to occur today due to ferroresonance even though this phenomenon has been extensively studied over the past ninety years. This thesis is concerned with the tasks of defining where ferroresonance problems can exist in a high voltage power system, of determining methods for displaying safety margins between nonferroresonant and ferroresonant operating regions and improving upon existing ferroresonance simulation techniques. Several different ferroresonant circuits have been modelled and compared with field measurements taken on the Manitoba Hydro 230-kV power system or compared with laboratory measurements including: a de-energized transformer connected to the grading capacitance of an open circuit breaker, a transformer-terminated doublecircuit transmission line and a coupling capacitor voltage transformer. In a high voltage power system, the most prevalent ferroresonance circuit occurs between a de-energized transformer and the grading capacitor of an open circuit breaker. Experimental work has shown that losses in a pr ctical transformer are much larger during ferroresonance oscillation modes than predicted by conventional modelling techniques. A simple switched eddy-current loss resistor is found able to model the losses during subharmonic and fundamental frequency ferroresonance in a laboratory transformer. A major contribution of this work is a new method of visualizing the margin between nonferroresonant and ferroresonant states in a transformer/grading capacitor circuit has been developed. A general set of averaged equations is derived that permit the analysis of an nth order polynomial approximation of the magnetization curve. The location of the saddle points and slope of the stable manifold through the saddle points can be determined for a particular transformer under study. The Limacon of Pascal is found to be a good approximation to the geometric shape of the basin of attraction of the period-1 ferroresonant attractor and can be calculated using the saddle point location and slope of the stable manifold. The critical parameters resulting in a crossing of the separatrix can then be found by iteratively solving the Limacon equations. The new method will assist utility engineers in quickly assessing the potential risk of ferroresonance in their power system.
author Jacobson, David
spellingShingle Jacobson, David
Field testing, modelling and analysis of ferroresonance in a high voltage power system
author_facet Jacobson, David
author_sort Jacobson, David
title Field testing, modelling and analysis of ferroresonance in a high voltage power system
title_short Field testing, modelling and analysis of ferroresonance in a high voltage power system
title_full Field testing, modelling and analysis of ferroresonance in a high voltage power system
title_fullStr Field testing, modelling and analysis of ferroresonance in a high voltage power system
title_full_unstemmed Field testing, modelling and analysis of ferroresonance in a high voltage power system
title_sort field testing, modelling and analysis of ferroresonance in a high voltage power system
publishDate 2007
url http://hdl.handle.net/1993/1866
work_keys_str_mv AT jacobsondavid fieldtestingmodellingandanalysisofferroresonanceinahighvoltagepowersystem
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