TY - GEN
T1 - Experimental investigation of internal short circuit faults leading to advanced incipient behavior and failure of a distribution transformer
AU - Butler-Purry, Karen L.
AU - Mousavi, Mirrasoul Jaafari
AU - Bagriyanik, Mustafa
AU - Palmer-Buckle, Peter
PY - 2004
Y1 - 2004
N2 - Transformer fault detection and diagnosis is becoming more important due to the restructuring of the electric power industry. In this era of deregulation, loading transformers to their optimum capacity is becoming normal practice, which in turn applies high stresses on the insulation of the transformers and increases the probability of occurrence of internal short circuit winding faults. Such faults can lead to catastrophic failure and hence cause outages. Utilities and other entities in the electric power business are therefore exploring ways of detecting these faults in transformers in the incipient stage. Terminal values, primary and secondary currents and voltages of the transformer convey information that can be used to detect internal transformer failures before developing a detection method. The behavior of these terminal values should be understood. In an effort to characterize the behavior of the terminal values of a transformer during internal short circuit and incipient faults, short circuit faults were staged on a 25 kVA, 7200V/240V/120V two winding custom-built transformer. This paper discusses the results of the field experiments performed over a 19-month period. It presents time domain results of selected short circuit experiments. It also presents recordings of advance incipient-like behavior during the last set of experiments.
AB - Transformer fault detection and diagnosis is becoming more important due to the restructuring of the electric power industry. In this era of deregulation, loading transformers to their optimum capacity is becoming normal practice, which in turn applies high stresses on the insulation of the transformers and increases the probability of occurrence of internal short circuit winding faults. Such faults can lead to catastrophic failure and hence cause outages. Utilities and other entities in the electric power business are therefore exploring ways of detecting these faults in transformers in the incipient stage. Terminal values, primary and secondary currents and voltages of the transformer convey information that can be used to detect internal transformer failures before developing a detection method. The behavior of these terminal values should be understood. In an effort to characterize the behavior of the terminal values of a transformer during internal short circuit and incipient faults, short circuit faults were staged on a 25 kVA, 7200V/240V/120V two winding custom-built transformer. This paper discusses the results of the field experiments performed over a 19-month period. It presents time domain results of selected short circuit experiments. It also presents recordings of advance incipient-like behavior during the last set of experiments.
KW - Catastrophic failure
KW - Distribution transformer
KW - Field experiments
KW - Incipient faults
KW - Internal short circuit faults
UR - http://www.scopus.com/inward/record.url?scp=15944385963&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:15944385963
SN - 078038718X
SN - 9780780387188
T3 - 2004 IEEE PES Power Systems Conference and Exposition
SP - 1407
EP - 1415
BT - 2004 IEEE PES Power Systems Conference and Exposition
T2 - 2004 IEEE PES Power Systems Conference and Exposition
Y2 - 10 October 2004 through 13 October 2004
ER -