A comprehensive condition monitoring solution for the transformer

• Published in: 2012 XXth International Conference on Electrical Machines pp. 1520 - 1525
• Main Authors: Kung, P., Lutang Wang, Comanici, M. I.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.09.2012
• Subjects: Frequency measurement; Oil insulation; Power transformer insulation; Temperature measurement; Temperature sensors; Vibration measurement; Vibrations
• ISBN: 9781467301435; 1467301434
• DOI: 10.1109/ICElMach.2012.6350080

In most aging transformers, windings failures are caused by the deterioration of the insulation, leading to arcing and short circuits. Vibrations in a transformer are generated by different forces appearing in the core and winding during the operation. Winding vibrations result from the electromagnetic forces that are generated by the interaction of the current in a winding with leakage flux. These forces are proportional to the square of the load current, and therefore vibration is always there. VibroFibre™ technology was invented by QPS to monitor the vibration of the end windings. It works according to optical interference, i.e., when subjected to vibration, the signal reflected off the sensor is interpreted as intensity changes resulting from the change in the length of a fiber Bragg grating-based cavity. However, as temperature rises, the fringes also move making it necessary for other control measures to track this temperature rise. These counter measures effectively constitute indirect temperature measurement during this vibration monitoring. In other words, one single sensor can give two critical parameters The same technology is now adapted to be applied to diagnose transformers. The twin cavity sensor is packaged to measure trace moisture in oil. This moisture sensor has built in temperature compensation as well as direct temperature read out. This paper will describe the theoretical basis of this twin cavity sensor. In addition, we will also describe the fiber laser sensor for PD measurement. Because of the fact these PD sensors are to be mounted on the transformer wall. QPS continues to work on a miniature acoustic chamber .The paper will also discuss conceptually the algorithm behind the location of PD events in the context of a four wall transformer. Finally we will discuss in details the moisture sensor cable of reading moisture down to 1ppm with built in temperature compensation. Actually this moisture sensor is capable to give direct readout of the oil temperature which is the first in the world.