Transformer tank vibration modeling as a method of detecting winding deformations-part I: theoretical foundation

In this paper, a model developed for a transformer monitoring system to estimate transformer tank vibration is presented. The model calculates vibration on the transformer tank starting from some input variables that can be easily measured on the transformer. Tank vibration is also measured, showing a good concordance between estimated and measured values if the transformer is healthy. In case of a winding deformation winding vibration and, consequently, that of the tank, changes and a big difference between estimated and measured vibration appear. To estimate tank vibration, the model takes into account the main physical phenomena generating vibrations in the different transformer elements and how these vibrations are superposed and transmitted to the tank. The model has been tested experimentally on a test transformer fitted with internal and external accelerometers. A deformation has been provoked in the test transformer winding with the aim of testing the model's ability to detect it. The model has been also tested on several in-service grid transformers. The results of the experimental validation are shown in Part II of the paper.

[1]  V. Yu. Gorshunov,et al.  System for diagnosing the mechanical condition of the windings of high-power double-wound transformers , 1996 .

[2]  R. Stephenson A and V , 1962, The British journal of ophthalmology.

[3]  C. K. Mechefske Correlation power transformer tank vibration characteristics to winding looseness , 1995 .

[4]  H. McCallion,et al.  Natural frequencies and mode shapes of vibration of transformer cores , 1965 .

[5]  W. S. Zaengl,et al.  Development and application of new condition assessment methods for power transformers , 1998 .

[6]  J. R. McDonald,et al.  The use of artificial neural networks for the estimation and classification of vibration behavior in power transformers , 1995 .

[7]  Victor V. Sokolov,et al.  EXPERIENCE WITH DETECTION AND IDENTIFICATION OF WINDING BUCKLING IN POWER TRANSFORMERS , 2006 .

[8]  B. Garcia,et al.  Transformer tank vibration modeling as a method of detecting winding deformations-part II: experimental verification , 2006, IEEE Transactions on Power Delivery.

[9]  László Kiss,et al.  Large Power Transformers , 1987 .

[10]  F. Muzi,et al.  Vibro-acoustic techniques to diagnose power transformers , 2004, IEEE Transactions on Power Delivery.

[11]  Helmut Pfützner,et al.  Mechanisms of noise generation of model transformer cores , 1996 .

[12]  T. Leibfried,et al.  Monitoring of power transformers using the transfer function method , 1999 .

[13]  S. Birlasekaran,et al.  Off/on-line FRA condition monitoring technique for power transformer , 1999 .

[14]  Stephen P. Timoshenko,et al.  Vibration problems in engineering , 1928 .